AU2014203147B2

AU2014203147B2 - High level haloxyfop emulsifiable concentrate formulation

Info

Publication number: AU2014203147B2
Application number: AU2014203147A
Authority: AU
Inventors: Ross Rainbird
Original assignee: Imtrade Australia Pty Ltd
Current assignee: Imtrade Australia Pty Ltd
Priority date: 2013-06-28
Filing date: 2014-06-11
Publication date: 2018-03-08
Anticipated expiration: 2034-06-11
Also published as: AU2014203147A1

Abstract

11/06/14,jb20952 cap specification.doex,222 - 222 An emulsifiable concentrate formulation of haloxyfop or at least one haloxyfop derivative or a mixture thereof including: haloxyfop or at least one haloxyfop derivative or a mixture thereof comprising at least 650 g/L of the emulsifiable concentrate formulation on a gram haloxyfop acid equivalent per litre basis, at least one solid, liquid-containing or liquid agriculturally acceptable surfactant, and, optionally, at least one agriculturally acceptable solvent, wherein the liquid components of the emulsifiable concentrate formulation form a solubilising moiety for haloxyfop or haloxyfop derivative and wherein the weight ratio of haloxyfop or haloxyfop derivative to solubilising moiety is greater than 2, preferably greater than 3, and more preferably greater than 4.

Description

FIELD OF THE INVENTION [0001] This invention relates to liquid formulations of the selective herbicide haloxyfop. In particular the invention relates to emulsifiable concentrate formulations of haloxyfop that contain a high level of active agent.

BACKGROUND OF THE INVENTION [0002] Haloxyfop is a member of the aryloxyphenoxy-propionate (or

FOP) class of herbicides. Other members of the class include diclofop-methyl, fluazifop-P-butyl and quizalofop-P-methyl. FOPs are generally used for the post-emergent control of grasses in broad-leaf crops.

[0003] Haloxyfop in formulations may be presented as haloxyfop acid (molecular weight 361.7), haloxyfop methyl ester (molecular weight 375.73), or as another haloxyfop acid derivative. Different enantiomers of haloxyfop have different herbicidal activity, and it is usual that the most active enantiomer is used in formulations. It is conventional to quote the amount of haloxyfop in a formulation on an acid equivalent basis. Thus for example a formulation containing haloxyfop-methyl at 540 g/L will be quoted as containing haloxyfop at 520 g/L on an acid-equivalent (a.e.) basis.

[0004] Teachings in patent literature have included combinations of

FOPs and safeners to increase weed control (US 2006/0014643), the use of delayed-release liquid formulations of fatty acid synthase inhibitors (including FOPs), for example, microcapsule formulations or wax dispersions, and the use of FOPs as synergistic agents in conjunction with herbicidal 2-phenyl-4(hetero-)aryloxypyrimidines.

11/06/14,jb20952 cap specification.docx,2

-22014203147 11 Jun2014 [0005] A range of haloxyfop emulsifiable concentrates comprising 520 g/L Haloxyfop have been sold in Australia by the following organisations or businesses: 4 Farmers (as Haloxyfop 520), Agri West (as AW Harpoon 520), Imtrade Australia (as Chemag Haloxyfop 520, and as Imtrade haloxyfop 520 EC), Chemforce 2010 (as Chemforce Haloxyfop 520), Grow Choice (as Choice Halofop 520), Conquest Crop Protection (as Conquest Recon 520), Ospray (as Convict), Crop Care Australasia (as Exert 520), Farmalinx (as Farmalinx Haloxyfop 520 EC), Farmoz (as Farmoz Firepower), Macspred (as Generex Haloxyfop, and as Macspred Halomac 520), Fandmark Operations (as Genfarm Haloxyfop 520), Echem Australia (as Halox 520), Sipcam Pacific Australia (as Inquest), Kenso Corporation (as Kenso Agcare Haloxyken 520), Shandong rainbow International (as Rainbow Haloxyfop 520), Rygel Australia (as Rygel Haloxyfop 520), Dow Agrosciences Australia (as verdict 520), and Agricultural Product Services (as Whitestar Haloxyfop 520).

[0006] Each of the above commercially available haloxyfop EC formulations contains at most 520 g/E of haloxyfop active ingredient (acid equivalent basis), which suggests that 520 g/L represents an upper practical limit in the amount of haloxyfop that can be packaged in EC form using methods currently known to the art.

[0007] Many general characteristics of emulsifiable concentrate formulations have been described in US 2003/0072776 (Sun et al., filed July 2001). The Sun specification provides the following teachings about emulsifiers, solvents and optional ingredients.

Emulsifiers [0008] The emulsifiers of the emulsifiable concentrates comprise at least one emulsifier, which may be a non-ionic surfactant, an ionic surfactant, or a blend of both types of surfactants. It is also possible that an emulsifier in an emulsifiable concentrate may be a cationic surfactant. Useful non-ionic

11/06/14,jb20952 cap specification.docx,3

-32014203147 11 Jun2014 surfactants are said to include alkoxylated block polymers, alkoxylated alcohols, alkoxylated alkylphenols, alkoxylated amines, alkoxylated amides, alkoxylated fatty esters, alkoxylated oils, fatty esters, alkoxylated fatty acids, sorbitan derivatives, and the like.

[0009] It is possible that the emulsifier comprises a zwitterionic surfactant (i.e., a surfactant which simultaneously carries anionic and cationic charge). Examples of zwitterioninc surfactants include betaine surfactants.

[0010] Typical ionic surfactants found in emulsifiers include alkylaryl sulfonates; alkylarylsulfonic acids; carboxylated alcohol ethoxylates and alkylphenol ethoxylates; carboxylic acids/fatty acids; diphenyl sulfonate derivatives; olefin sulfonates; phosphate esters; phosphorus organic derivatives; quaternary surfactants; sulfates and sulfonates of oils and fatty acids; sulfates and sulfonates of ethoxylated alkylphenols; sulfates of ethoxylated alcohols; sulfates of fatty esters; sulfonates of dodecyl and tridecylbenzenes; sulfonates of naphthalene and alkyl naphthalene; sulfonates of petroleum; sulfosuccinamates; alkanolamides; alkoxylated amines (with low EO values); sarcosine derived surfactants such as, ammonium lauroyl sarcosinate, and the like.

[0011] Preferred emulsifiers may be alkoxylated alcohols and alkyphenols, preferably of from about 4 to about 50 ethylene oxide units and a hydrophobe of from about 4 to about 16 carbon atoms. Other preferred surfactants may be alkylphenol EO/PO block copolymers, e.g., that sold under the trade name WITCONOL NS 108 LQ, and alkoxylated amine salts of ethoxylated alkylphenol sulfates, e.g., that supplied under the trade name WITCOLATE 1335 by Crompton Corporation, Witco Group.

[0012] Developing an effective emulsifier package (blend of emulsifiers) requires careful screening of potential emulsifiers (surfactants), conducting emulsion tests according to prescribed methods or established

11/06/14,jb20952 cap specification.docx,4

-42014203147 11 Jun2014 laboratory protocols, and optimizing the performance of the most promising emulsifier(s). The screening of potential emulsifier packages is dependent upon pesticide active type, and solvents. Those skilled in the art of EC technology understand the importance of hydrophilic-lipophilic balance and surfactant choice for such formulations. The emulsifier (surfactant) is preferably present at from about 1 to about 50 weight percent of the emulsifiable concentrate, more preferably from about 3 to about 10 weight percent.

Solvents [0013] The selection of a suitable solvent system is made by taking into consideration the solubility of the active(s) and the chemical and toxicological profiles of the solvent(s). The solvents include all EPA approved solvents, and the list of suitable solvents may include aliphatic paraffinic oils, such as kerosene or refined paraffins; aromatic solvents, such as xylenes; C9-C12 aromatic solvents, such as supplied under the trade names AROMATIC 100, 150, and 200 (as sold by Exxon Chemical), ISOPAR L, SOLVESSO 100, 150, and 200; chlorinated hydrocarbons, such as chlorobenzene; alcohols, such as butanol and benzyl alcohol; ketones, such as cyclohexanone and N-methyl pyrollidone; and ethers, such as diethylene glycol and diethoxol. In addition, the solvent may include vegetable oils, methylated vegetable oils, petrol-oils, sugar esters of fatty acids, e.g., sucrose esters, and the like.

[0014] Preferred solvents may be C9-C12 hydrocarbon solvents because of their low cost and their ability to solubilize many pesticide toxicants.

[0015] Sun teaches that the solvent may be present at from 0 to about weight percent of the emulsifiable concentrate, preferably from about 20 to about 50 weight percent.

11/06/14,jb20952 cap specification.docx,5

-52014203147 11 Jun2014

Optional Ingredients [0016] Other additives may be included in emulsifiable concentrate formulations of active ingredient and at levels less than about 5 weight percent. Such additives can include, for example, an antifreeze, a pH buffer, a finely divided hydrophobic filler, a perfume, an antifoam, a stenching agent, or an embittering agent (the latter two agents to discourage ingestions).

[0017] Sun also teaches that emulsifiable concentrates according to the invention disclosed therein can be diluted with water to a desired solids or active ingredient level and applied to the targets using suitable means. Typically according to Sun, the amount of active component in the final formulations prior to dilution is from about 1 to about 95 weight percent.

[0018] Hereafter in this specification, the term “haloxyfop” will be taken to refer to each and any haloxyfop acid or haloxyfop acid derivative moiety present in the formulation.

[0019] In the present specification, the term “solubilising moiety for haloxyfop” is to be taken to refer to any liquid system in which haloxyfop is miscible, including liquid systems that include conventional agriculturally acceptable solvents and also liquid systems that include conventional agriculturally acceptable liquid, or liquid-containing, surfactants, provided that haloxyfop dissolves in said liquid systems. A solubilising moiety for haloxyfop may contain one, two or even more liquid components. The weight of a solubilising moiety for haloxyfop is taken to be the sum of weights of liquid components that constitute the solubilising moiety system for haloxyfop. For the avoidance of doubt, if a solubilising moiety for haloxyfop happens to include one or more solubilised solids (e.g. a solid dissolved surfactant), the weight of the solubilising moiety for haloxyfop is taken to be the sum of the weights of the liquid components of the solubilising moiety system for haloxyfop, but does not include the weights of non-haloxyfop solid

11/06/14,jb20952 cap specification.docx,6

-62014203147 11 Jun2014 components that may be dissolved. The term “agriculturally acceptable solvent for haloxyfop” will be taken to refer to solvents for haloxyfop wherein each component of the solvent has been approved for inclusion in an agricultural formulation in at least one country. “Agriculturally acceptable” means registered or otherwise approved for use in agriculture in at least one country.

[0020] Haloxyfop-methyl quantities are to be calculated in terms of haloxyfop acid equivalent.

[0021] The “haloxyfop /solubilising moiety ratio” in a haloxyfop EC, which may be calculated by dividing the weight of haloxyfop moieties (as acidequivalent weights) in a given weight of haloxyfop EC formulation by the weight of the solubilising moiety for haloxyfop in the same weight of haloxyfop EC formulation, is an important ratio in terms of:

1. The quantity of solvent released to the environment as a consequence of applying a given amount of haloxyfop formulation to a cultivation zone;

2. The amount of high-quality packaging material that is utilised in carrying a given amount of haloxyfop active ingredient to a cultivation zone;

3. The amount of used packaging material that needs to be recycled or otherwise disposed of after applying a given amount of haloxyfop active ingredient to a cultivation zone;

4. The contact toxicity of haloxyfop EC formulation to a farm worker;

5. The flammability of haloxyfop EC formulation;

11/06/14,jb20952 cap specification.docx,7

-72014203147 11 Jun2014

6. The vapour pressure of solvent (frequently aromatic hydrocarbon) that is released to air in a given time after a spill has occurred;

7. The weight of goods that must be carried by a farm worker in applying a given amount of haloxyfop active ingredient to a cultivation zone;

8. The cost of freight (volume and weight basis) in transporting the haloxyfop formulation from factory to field;

9. The capacity to demonstrate superior formulation expertise to farmers.

[0022] Most, if not all, of the above parameters are improved when a given amount of haloxyfop in an EC formulation is associated with a lesser amount of solubilising moiety, i.e., when the haloxyfop/ solubilising moiety ratio is greater.

[0023] As an illustration of prior art one may consider, a conventional commercial haloxyfop EC formulation with a density of 1160 g/L and consisting of the following ingredients:

Component	Parts by Weight g/L
Haloxyfop-P-methyl 97.4% technical	554.6
Diethylene glycol monomethyl ether	525.4
Ionic surfactant (60% solid in 40% 2-ethylhexanol), e.g. alkylbenzenesulfonic acid, calcium salt (e.g. Ninate 60E)	10
Non-ionic surfactant (solvent-free solid) e.g. alkyl polyoxyalkylene ether (e.g. Termul 203)	70

11/06/14,jb20952 cap specification.docx,8

-82014203147 11 Jun2014 [0024] In the above formulation haloxyfop (as methyl ester, molecular weight = 375.73) is present at 0.974 x 554.6 = 540 parts by weight. This corresponds to 520 parts by weight of haloxyfop acid equivalent, molecular weight 361.7). Solubilising moiety is present at 525.4 + 0.4x10 = 529.4 parts by weight. The haloxyfop/solubilising moiety ratio is thus 520/525.4 = 0.99. The prior art formulation may be referred to as Haloxyfop 520, reflecting the weight content of haloxyfop acid equivalents.

DESCRIPTION OF THE INVENTION [0025] According to one aspect of the present invention there is provided an emulsifiable concentrate formulation of haloxyfop or haloxyfop derivatives including haloxyfop or at least a haloxyfop derivative and an agriculturally acceptable solvent for haloxyfop, wherein the weight ratio of haloxyfop moieties on an acid equivalent basis to solvent is greater than 2, preferably greater than 3 and more preferably greater than 4.

[0026] An emulsifiable concentrate formulation of haloxyfop or haloxyfop derivative or mixture thereof including: haloxyfop or haloxyfop derivative or mixture thereof comprising at least 650 g/L of the emulsifiable concentrate formulation on a haloxyfop acid equivalent basis, at least one solid, liquid-containing or liquid agriculturally acceptable surfactant, and, optionally, at least one agriculturally acceptable solvent, wherein the liquid components of the emulsifiable concentrate formulation form a solubilising moiety for haloxyfop or haloxyfop derivative and wherein the weight ratio of haloxyfop or haloxyfop derivative to solubilising moiety is greater than 2, preferably greater than 3, and more preferably greater than 4.

[0027] The agriculturally acceptable solvent comprises at least one member of the set consisting of alkane compounds, aromatic compounds, alkylaryl compounds, alcohol-containing compounds, ether-containing compounds, ester-containing compounds, ketone-containing compounds,

11/06/14,jb20952 cap specification.docx,9

-92014203147 11 Jun2014 lactam-containing compounds, amide-containing compounds, and chlorinated compounds.

[0028] The agriculturally acceptable solvent may include at least one member of the set consisting of solvent naphtha (petroleum), heavy aromatic fraction, xylene, toluene, pyrrolidones including N-alkylated pryrrolidones such as n-methyl pyrrolidone, cyclohexanone, acetone, glycol ethers such as diethyleneglycol monomethyl ether (including the material sold under the trade name Carbitol), ethyleneglycolmonobutylethers (including the material sold under the trade name Butyl Glysolv), Propylene glycol monomethyl ether (including the material sold under the trade name Glysolv PM), methanol, ethanol, isopropanol, decanol, paraffins, hexane, and acetic acid C6-Cs branched alkyl ester (including the material sold under the trade name Exxate 700).

[0029] Preferably, the agriculturally acceptable solvent may include at least one member of the set consisting of glycol ethers and alkyl glycol ethers.

[0030] More preferably, the agriculturally acceptable solvent may comprise at least one member of the set consisting of methyl, ethyl or butyl ethers of ethylene glycol or diethylene glycol or triethylene glycol or propylene glycol or dipropylene glycol.

[0031] Alternatively, the agriculturally acceptable solvent may include at least one member of the set consisting of diethylene glycol monoethyl ether, propylene glycol monomethyl ether, and ethylene glycol monobutyl ether.

[0032] The agriculturally acceptable solvent may comprise less than

350 g/L, preferably less than 280 g/L, and more preferably less than 220 g/L of the emulsifiable concentrate formulation.

11/06/14,jb20952 cap specification.docx,10

- 102014203147 11 Jun2014 [0033] The agriculturally acceptable solvent may be in the range of 80 350 g/L, preferably in the range of 120 - 280 g/L, and more preferably in the range of 160 - 220 g/L.

[0034] An emulsifiable concentrate formulation according to the present invention may include at least one agriculturally acceptable surfactant, and wherein the cumulative amount (net of carrier solvent) of the at least one agriculturally acceptable surfactants is at least 30 g/L, preferably at least 45, and more preferably at least 60 g/L.

[0035] The at least one agriculturally acceptable surfactant may comprise a non-ionic surfactant.

[0036] The at least one agriculturally acceptable non-ionic surfactant may be chosen from the categories in the set consisting of alkoxylated block polymers, alkoxylated alcohols, alkoxylated alkylphenols, alkoxylated amines, alkoxylated amides, alkoxylated fatty esters, alkoxylated oils, fatty esters, alkoxylated fatty acids, and sorbitan derivatives.

[0037] The non-ionic surfactant may comprise at least one member of the set consisting of (i) ethylene oxide/propylene oxide block copolymers and block copolymer derivatives including alkyl derivatives, and (ii) alkyl phenol ethoxylates wherein the alkyl chain has between 7 and 11 carbon atoms and there are 7 to 11 ethylene oxide moieties (average basis).

[0038] The at least one agriculturally acceptable non-ionic surfactant may be chosen from the set consisting of (i) butyl ethylene oxide/propylene oxide copolymer having an average molecular weight in the range 2000 - 4000, (ii) alcohol alkoxylate with ethylene oxide 22-28 moles and propylene oxide 25-35 moles and a PO/EO ratio of about 1.2/1, and (iii) nonylphenol with 8 or 9 or 10 ethoxylates (average basis).

11/06/14,jb20952 cap specification.docx,ll

2014203147 11 Jun2014

- 11 [0039] The cumulative amount (net of carrier solvent if any) of nonionic surfactant may comprise at least 30 g/L, preferably at least 45 g/L, and more preferably at least 60 g/L.

[0040] Alternatively, in an emulsifiable concentrate formulation according to the present invention, the at least one agriculturally acceptable surfactant may comprise an anionic surfactant.

[0041] The at least one agriculturally acceptable ionic surfactant may be chosen from the categories in the set consisting of alkylaryl sulfonates; alkylarylsulfonic acids; carboxylated alcohol ethoxylates and alkylphenol ethoxylates; carboxylic acids/fatty acids; diphenyl sulfonate derivatives; olefin sulfonates; phosphate esters; phosphorus organic derivatives; sulfates and sulfonates of oils and fatty acids; sulfates and sulfonates of ethoxylated alkylphenols; sulfates of ethoxylated alcohols; sulfates of fatty esters; sulfonates of dodecyl and tridecylbenzenes; sulfonates of naphthalene and alkyl naphthalene; sulfonates of petroleum; sulfosuccinamates; alkoxylated amines; sarcosine derived surfactants, such as ammonium lauroyl sarcosinate, and alkoxylates as above other than ethoxylates (such as propoxylates, butoxylates).

[0042] The at least one agriculturally acceptable ionic surfactant may be chosen from the set consisting of linear and branched alkylbenzenesulphonates and salts thereof which may be provided as a solution in a solvent such as calcium C10-C14 alkylbenzenesulfonate (including materials sold under the trade name NANSA EVM70/2E which is carried in 2 ethylhexanol or under the trade name Ninate 60E which is also carried in 2 ethylhexanol), alkyl sulphates such as sodium lauryl sulphate (including material sold under the trade name Empicol LX/N), alkyl ether sulfates such as sodium lauryl ether (2EO) sulphate (including material sold under the trade name Emipmin KESX70/AU), alkyl phosphates (including material sold under the trade names Alkanate PA100, Alkanate PG30, and Alkanate PL50), alkyl

11/06/14,jb20952 cap specification.docx,12

- 122014203147 11 Jun2014 ether phosphates (including material sold under the trade name Alkanate PK100), alkylphenol ether sulfate/tallow amine ethoxylate salts (including materials sold under the trade names Toximul TANS-5, Toximul TANS-6, Toximul TANS-8, Toximul TANS-15), and alcohol ether sulphate/tallow amine ethoxylate salts (including materials sold under the trade names Toximul TAABS-5, Toximul TAABS-8).

[0043] Preferably, the at least one agriculturally acceptable ionic surfactant may be chosen from the set consisting of linear and branched alkylbenzenesulphonates and salts thereof which may be provided as a solution in a solvent such as calcium C10-C14 alkylbenzenesulfonate (including materials sold under the trade name NANSA EVM70/2E which is carried in 2 ethylhexanol, and material sold under the trade name Ninate 60E which is also carried in 2-ethyl hexanol), alkylphenol ether sulfate/tallow amine ethoxylate salts (including materials sold under the trade names Toximul TANS-5, Toximul TANS-6, Toximul TANS-8, )and alcohol ether sulphate/tallow amine ethoxylate salts (including materials sold under the trade names Toximul TAABS-5).

[0044] An emulsifiable concentrate formulation according to the present invention may include at least one agriculturally acceptable ionic surfactant, wherein the cumulative amount (net of carrier solvent) of the at least one agriculturally acceptable anionic surfactants is at least 8 g/L, preferably at least 11 g/L, and more preferably at least 14 g/L.

[0045] An emulsifiable concentrate formulation according to the present invention may include at least one agriculturally acceptable non-ionic surfactant wherein the cumulative amount (net of carrier solvent) of the at least one agriculturally acceptable non-ionic surfactant is at least 40 g/L, preferably at least 60 g/L, and more preferably at least 80 g/L.

11/06/14,jb20952 cap specification.docx,13

2014203147 11 Jun2014

- 13 [0046] An emulsifiable concentrate formulation according to the present invention may comprise about 700 - 950 g/L haloxyfop-P-methyl, 160 200 g/L diethyleneglycolmonoethyl ether, 45 - 70 g/L non-ionic surfactant comprising ethylene oxide-propylene oxide block copolymer moieties of molecular weight 1500 - 4500 , and 14 - 18 g/L of C12-C16 linear or branched calcium alkyl benzene sulfonate.

[0047] An emulsifiable concentrate formulation according to the present invention has the density of at least 1.00 g/ml and preferably at least 1.15 g/ml.

[0048] Formulations incorporating diluted emulsifiable concentrate according to the present invention may be used for selectively killing or suppressing weeds such as barley grass, brome grass, paradoxa grass, volunteer cereals, wild oats, musky or ferny leaf Storksbill, common crowsfoot, common storksbill, long or shiny leaf storksbill, couch grass, Rhodes grass, Australian millet, barnyard grass, green panic, Johnson grass, liverseed grass, Mossman river grass, summer grass, slender rats tail grass, Buffel grass, kikuyu, paspalum spp, starai spp, annual ryegrass, lesser canary grass, Rope twitch, Erodium spp.

DESCRIPTION OF PREFERRED EMBODIMENTS AND EXAMPLES OF THE INVENTION [0049] In order that the present invention may be more readily comprehended, one or more preferred embodiments are described hereinafter.

EXAMPLE 1 [0050] The following haloxyfop emulsifiable concentrate according to the invention was made by mixing the following components:

11/06/14,jb20952 cap specification.docx,14

- 142014203147 11 Jun2014

Component	Parts by Weight (g/L)
Haloxyfop-P-methyl 94% tech	994.5
Diethyleneglycol monoethyl ether	183.2
Alkylbenzenesulfonic acid, calcium salt (60% solid in 40% 2-ethylhexanol) e.g. Ninate 60E	26.2
Alkyl polyoxyalkylene ether e.g. Termul 203. (solvent-free solid)	61.1

[0051] In the above formulation haloxyfop (as methyl ester, molecular weight = 375.73) is present at 0.94 x 994.5 = 934.83 parts by weight. This corresponds to 900 parts by weight of haloxyfop acid equivalent (molecular weight 361.7). Solubilising moiety is present at 183.2 + 0.4x26.2 = 193.68 parts by weight. The haloxyfop/solubilising moiety ratio is thus 900/193.68 = 4.65. The density of the formulation is 1265 g/L.

[0052] In Example 1, the formulation procedure for a nominal 10,000 L batch of the material is as follows, with steps being identified numerically as 1.1, 1.2, 1.3, and so on:

[0053] 1.1 Ensure formulation vessel is empty and clean.

[0054] 1.2 Charge the formulation vessel with solvent as follows with agitator off:

1. Diethylene glycol monethyl ether

1550 kg

[0055] 1.3 Charge the formulation vessel with active ingredient, with intermittent agitation following the addition of every 1000 kg or so. As haloxyfop-P-methyl technical material can be of such a viscosity that the material is not amenable to pumping at temperatures of the order of 30°C and

11/06/14,jb20952 cap specification.docx,15

2014203147 11 Jun2014

- 15 below (depending on the ambient temperature and the means of transferring the material to the formulation), gentle heating may be required to establish a lower viscosity liquid form prior to processing:

2. Haloxyfop-P-methyl 94% Tech

9945 kg

[0056] 1.4 Charge the formulation vessel with the surfactants and remaining solvent as follows, clearing residual surfactant from any pumps or process lines used with the remaining complement of solvent:

3. Alkylbenzenesulfonic acid, calcium salt in 2ethylhexanol (e.g. Ninate 60E)	262 kg
4. Alkyl polyoxyalkylene ether (e.g. Termul 203)	611kg
5. Diethylene glycol monethyl ether	282 kg

[0057] 1.5 Continue agitating for a minimum of 30 minutes following the addition of the last ingredient.

[0058] 1.6 Sample approximately IL of product, ensuring it is representative of the formulation.

[0059] 1.7 Sub-sample 250mL from the original IL sample, and subject it to the following testing regime:

[0060]	1.7.1	Specific gravity (CIPAC MT3.1)
	1.7.2	pH 1% aqueous (CIPAC MT75.3)
	1.7.3	Emulsion characteristics (CIPAC MT36.1)
	1.7.4	Persistent foam (CIPAC MT47.2)

11/06/14,jb20952 cap specification.docx,16

- 162014203147 11 Jun2014

1.7.5 Active constituent (Haloxyfop-P-methyl) content (using a validated method meeting the requirements of APVMA).

[0061] 1.8 If specific gravity is within the bounds of the acceptable range listed in the specification, record the value and proceed to the next test. If specific gravity is outside of the bounds of the acceptable range listed in the specification, agitate the formulation charge until specific gravity is constant. If still outside of the bounds of the acceptable range, quarantine batch for further investigations and possible rework.

[0062] 1.9 If pH 1% aqueous is satisfactory, record the results and proceed to the next test. If pH 1% aqueous is outside the bounds of the acceptable range listed in the specification, quarantine the batch for further investigations and possible rework.

[0063] 1.10 If emulsion stability in standard hard water is satisfactory, record the results and proceed to the next test. If emulsion stability is outside the bounds of the acceptable range listed in the specification, adjust the contents of surfactants (Alkylbenzenesulfonic acid, calcium salt in 2ethylhexanol (Ninate 60E) and Alkyl polyoxyalkylene ether (Termul 203)). After suitable agitation time to ensure homogeneity, resample and retest.

Repeat adjustment process until emulsion stability is within the bounds of the acceptable range.

[0064] 1.11 If persistent foaming characteristics are satisfactory, record the results and proceed to the next test. If persistent foaming characteristics are outside the bounds of the acceptable range quarantine the batch for further investigations and possible rework.

[0065] 1.12 If the active constituent level is satisfactory, record results. If the active constituent level is outside the bounds of the acceptable range listed in the specification, adjust the level accordingly by adding

11/06/14,jb20952 cap specification.docx,17

- 172014203147 11 Jun2014 additional diethylene glycol monethyl ether (where the active content is high) or additional haloxyfop-P-methyl active constituent (where the active content is low). After suitable agitation time to ensure homogeneity, resample and retest. Repeat adjustment process until active constituent levels are within the bounds of the acceptable range.

[0066] 1.13 Catalogue and store a retention sample of approximately 200 g.

Tests for Confirming the Suitability of the Formulation of Example 1 [0067] For the test method identified by the prefix CIPAC, refer to

International Pesticides Analytical Council (CIPAC) published methodology.

Parameter	Test Method	Required Outcome	Observed Outcome
appearance	visual	homogeneous liquid	homogeneous liquid
assay	validated chromatographic method, 98-102% accuracy, linearity R>0.99	875 to 925g/F	899g/F
pH(l%)	CIPAC MT 75.3	4- 10	7.4
Spec Gravity (SG)	CIPAC MT 3.1	1.00-3.00	1.265
Emulsion characteristics	CIPAC MT 47.2	<2 ml cream and < trace oil after 30 min, complete resuspension after 24 hrs	complies
Persistent foaming	CIPAC MT 47.2	< 60 ml after 1 min	5 mF

11/06/14,jb20952 cap specification.docx,18

2014203147 11 Jun2014

cold stability	visual	no phase separation	complies
viscosity 20°C	Brookfield viscometer	0 - 2000 cPs	330 cPs
viscosity 5°C	Brookfield viscometer	0 - 2000 cPs	1350 cPs
long term performance	As above, after storage at 54°C for 2 weeks CIPAC MT 46.1	complies	complies
Flash point of most volatile component	Abel closed cup (diethylene glycol monoethyl ether)	>60°C	96°C

Trials [0068] Series of trials were conducted to ascertain suitable solvent surfactant combinations. The haloxyfop used in the trials was haloxyfop technical (either 94% or 95% purity).

Solvents and Surfactants [0069] Table A identifies the solvents used in the trials and contains comments and identifying acronyms (where such were used).

TABLE A

Name	Description	Comments
Recosol 150	Petroleum-based aromatic hydrocarbon distillate fraction	Equivalent to Solvesso 150, also designated R150, distillation range approx 180 - 210°C, flash point approx 66°C

11/06/14,jb20952 cap specification.docx,19

- 192014203147 11 Jun2014

Recosol 100	Petroleum-based aromatic hydrocarbon distillate fraction	Equivalent to Solvesso 100, also designated R100, distillation range approx 160 - 180 °C, flash point approx 50°C
Recosol 200	Petroleum-based aromatic hydrocarbon distillate fraction	Equivalent to Solvesso 200, also designated R200, distillation range approx 220 plus°C, flash point approx 100°C
Butyl Glysolv	Ethylene glycol monobutyl ether
Ethylene glycol monobutyl ether		EGMBE, EGME
Diethylene glycol monoethyl ether		DGME, DGMEE
Dimethyl Succinate
Dimethyl Adipate
N methyl pyrrolidone		NMP
Exxate 700	C₆-C₈ acetate, acetic acid C₆-C₈ branched alkyl ester
toluene
xylene
acetone
Propylene glycol monomethyl ether		PGME, PGMME
Propylene glycol
Diethylene glycol
Dipropylene glycol

11/06/14,jb20952 cap specification.docx,20

2014203147 11 Jun2014

-20[0070] Table B identifies in general terms the surfactants used in the trials and Table C contains more details on the surfactants, including sources.

TABLE B

Name	General Description	Category (A,N,C) A=anionic N=non-ionic C=cationic
Termul 200	Nonylphenol alkoxylate	N
Termul 203	Polypropyleneglycol alkoxylate	N
Toximul 8320	Butanol alkoxylate	N
Toximul TANS 5	Low-solvent alkylphenol ether sulphate/tallow amine ethoxylated salt	A,N,C
Toximul TANS 6	Low-solvent alkylphenol ether sulphate/tallow amine ethoxylated salt	A,N,C
Toximul TANS 8	Low-solvent alkylphenol ether sulphate/tallow amine ethoxylated salt	A,N,C
Toximul TANS 15	Low-solvent alkylphenol ether sulphate/tallow amine ethoxylated salt	A,N,C
Toximul TAABS 5	Low-solvent branched alcohol ether sulphate/tallow amine ethoxylated salt	A,N,C
Toximul TAABS 8	Low-solvent branched alcohol ether sulphate/tallow amine ethoxylated salt	A,N,C
NANSA EVM 70	Calcium alkylbenzenesulfonate in 2 ethylhexyl alcohol	A

11/06/14,jb20952 cap specification.docx,21

2014203147 11 Jun2014

Ninate 60E	Calcium alkylbenzenesulfonate in 2 ethylhexyl alcohol	A
Rhodacal 60/BE-C	Calcium alkylbenzenesulfonate in 2 ethylhexyl alcohol	A
Rhodacal 70	Calcium alkylbenzenesulfonate in 2 ethylhexyl alcohol	A
Rhodacal 70B	Calcium alkylbenzenesulfonate in 2 ethylhexyl alcohol	A
Kemmat HF60	Calcium dodecyl lbenzenesulfonate	A
Teric N2	Nonylphenol-2-EO	N
Teric N8	N onylphenol- 8 -EO	N
Teric N9	Nonylphenol-9-EO	N
Teric N10	Nonylphenol-10-EO	N
Teric N13	Nonylphenol-13 -EO	N
Teric N15	Nonylphenol-15-EO	N
Teric N20	Nonylphenol-20-EO	N
Teric N30	Nonylphenol-30-EO	N
Termul 1284	Castor oil-36-EO	N
Termul 1285	Castor oil-54-EO	N
Teric PE62	EO/PO block copolymer	N
Teric PE64	EO/PO block copolymer	N
Teric PE68	EO/PO block copolymer	N
Makon TSP 16	Tristyryl-16-EO	N
Pluronic PE 6400	PE/PO/PE block copol	N
Pluronic PE 6800	PE/PO/PE block copol	N

11/06/14,jb20952 cap specification.docx,22

2014203147 11 Jun2014

TABLE C	-22-
Name
Termul 200	Nonylphenol 9 EO/IOPO, HLB 16.1, solid
Orisurf 200	Equivalent to Termul 200
Termul 203	Alcohol alkoxylate, HLB 17.5 PO-EO-PO triblock, 35PO-25EO-30PO
Toximul 8320	Stepan, Butyl EO/PO block, HLB 12
Toximul TANS 5	Stepan, HLB 8. Ether sulphate component is anionic, tallow amine ethoxylate can be non-ionic or cationic depending on pH and chemical environment
Toximul TANS 6	Stepan, HLB. 10 Ether sulphate component is anionic, tallow amine ethoxylate can be non-ionic or cationic depending on pH and chemical environment
Toximul TANS 8	Stepan, HLB 12. Ether sulphate component is anionic, tallow amine ethoxylate can be non-ionic or cationic depending on pH and chemical environment
Toximul TANS 15	Stepan, HLB 14. Ether sulphate component is anionic, tallow amine ethoxylate can be non-ionic or cationic depending on pH and chemical environment
Toximul TAABS 5	Stepan, class of anionic detergent blend. Ether sulphate component is anionic, tallow amine ethoxylate can be non-ionic or cationic depending on pH and chemical environment
Toximul TAABS 8	Stepan, class of anionic detergent blend. Ether sulphate component is anionic, tallow amine ethoxylate can be non-ionic or cationic depending on pH and chemical environment.
NANSA EVM70	Linear alkylate 70% active may be in various solvents such as isobutanol or 2-ethyl hexanol
Ninate 60E	Stepan, 60% active linear calcium alkylbenzenesulfonate in 2-ethylhexanol, 60% active

11/06/14,jb20952 cap specification.docx,23

2014203147 11 Jun2014

Rhodacal 60/BE-C	Rhodia, mixture of linear dodecylbenzene sulfonate calcium salt, 60% active
Rhodacal 70	Rhodia, branched dodecylbenzene sulfonate calcium salt, 70% active
Rhodacal 70B	Rhodia, mixture of linear dodecylbenzene sulfonate calcium salt, 70% active
Kemmat HF60	Handan Xindiya, calcium dodecylbenzene sulfonate 60% active
Teric N2	Huntsman nonylphenolethoxlate
Teric N8	Huntsman nonylphenolethoxlate
Teric N9	Huntsman nonylphenolethoxlate
Teric N10	Huntsman nonylphenolethoxlate
Teric N13	Huntsman nonylphenolethoxlate
Teric N15	Huntsman nonylphenolethoxlate
Teric N20	Huntsman nonylphenolethoxlate
Teric N30	Huntsman nonylphenolethoxlate
Termul 1284	Huntsman, paste, HLB 12.6
Termul 1285	Huntsman, paste, HLB 14.4
Teric PE62	Huntsman PE/PO diblock copol 17 moles EO, HLB 7
Teric PE64	Huntsman PE/PO diblock copol, 25 moles EO, HLB 15
Teric PE68	Huntsman PE/PO diblock copol, 150 moles EO, HLB 29
Makon TSP 16	Stepan, HLB 13
Pluronic PE 6400	BASF, triblock copol PE/PO/PE, 1750 g/mol polypropylene glycol block, 40% polyethyleneglycol in molecule
Pluronic PE 6800	BASF, triblock copol PE/PO/PE, 1750 g/mol polypropylene glycol block, 80% polyethyleneglycol in molecule

11/06/14,jb20952 cap specification.docx,24

-242014203147 11 Jun2014

Varying Non-Ionic Surfactant at Constant Surfactant Ratio [0071] In this set of trials all haloxyfop formulations contained haloxyfop at a loading of 900 g/L. In each formulation trialled, a single anionic surfactant was used, namely that supplied under the trade name Ninate 60E (calcium C10-C16 alkylbenzenesulfonate, linear, CAS # 68584-23-6, as 60% in 2-ethylhexanol supplied by Stepan). In each formulation in these trials, a single solvent was used, namely, diethylene glycol monoethyl ether.

[0072] A range of non-ionic surfactants was used in this set of trials as follows, with the surfactant being identified initially by the trade name under which it was supplied:

Termul 200 (alkylphenol poly-ether EO/PO (ethyleneoxide/propylene oxide) block copolymer, 9 mol EO, 10 mol PO, CAS #37251-69-7, manufactured by Huntsman),

Teric N2 (nonylphenol 2-EO, manufactured by Huntsman),

Teric N8 (nonylphenol 8-EO, manufactured by Huntsman),

Teric N10 (nonylphenol 10-E, manufactured by Huntsman),

Teric N13 (nonylphenol 13-EO, manufactured by Huntsman),

Teric N20 (nonylphenol 20-EO, manufactured by Huntsman),

Termul 203 (alcohol alkoxylate, HLB 17.5, manufactured by

Huntsman),

Termul 1284 (castor oil PEG 36 CAS #61791-12-6, manufactured by Huntsman),

Termul 1285 (castor oil PEG 54 (polyethylene glycol) CAS #61791-12-6, manufactured by Huntsman),

Teric PE62 (EO/PO block copolymer, 17 moles EO, HLB = 7, CAS # 9003-11-6, manufactured by Huntsman),

Teric PE64 (EO/PO block copolymer, 25 Moles EO, HLB = 15, CAS # 9003-11-6, manufactured by Huntsman),

11/06/14,jb20952 cap specification.docx,25

2014203147 11 Jun2014

-25 Teric PE 68 (EO/PO block copolymer, 150 Moles EO, HLB = 29, CAS # 9003-11-6, manufactured by Huntsman),

Toximul 8320 (polyoxyalkylene glycol ether, manufactured by

Stepan),

TSP 16 (tristyrylphenol ethoxylate, HLB = 13, CAS #99734-095, manufactured by Stepan company),

Pluronic PE 6400 (PE/PO/PE block copol, PO block mol wt 1750, 40% PE in molecule, contains CAS # 9003-11-6, manufactured by BASF), and

Pluronic PE 6800 (PE/PO/PE block copol, PO block mol wt 1750, 80% PE in molecule, contains CAS # 9003-11-6, manufactured by BASF).

[0073] The weight ratio of anionic to non-ionic surfactants was kept constant at 30:70. Termul 203 was selected as the control non-ionic surfactant. More details of the trials are set out in Appendix 1, which Appendix forms part of this Specification.

[0074] All formulations, apart from the control formulation, failed in terms of emulsion stability and/or cold temperature stability.

[0075] In Table 2 and subsequent Tables, which summarise the results of the trials, the following indicators apply:

E - Emulsion characteristics ascertained at 5% aq.

CTS - Cold temperature stability assessed at 2°C HLB - Hydrophilic Lipophilic Balance P - Pass

F - Fail

12/12/17,3472646_l.docx,26

-262014203147 29 Jan 2018

TABLE 1

Trial using different non-ionic surfactants at constant surfactant ratio
(Control:	Termul 203 as non-ionic surfactant Ionic Surfactant: Ninate 60E Solvent: Diethylene Glycol Monoethyl Ether)
		Summary	30:70
		of Results	(a)
Code	Name		E	CTS
A. Alkoxylate Alkyl Phenol
IA1	Termul 200	FAIL	F	P
B. Nonyl Phenol Ethoxylates
IA2	Teric N2	FAIL	F	P
IA3	Teric N8	FAIL	F	P
IA4	Teric N10	FAIL	F	P
IA5	Teric N13	FAIL	F	P
IA6	Teric N20	PASS	P	P
C. Castor Oil Ethoxylates
IA7	Termul 1284	FAIL	F	P
IA8	Termul 1285	FAIL	F	P
D. Block Co-polymer
IA9	Termul 203	PASS	P	P
IA10	TSP 16	FAIL	F	P
IA11	Teric PE62	FAIL	F	P
IA12	Teric PE64	FAIL	F	P
IA13	Teric PE68	FAIL	F	F

3472646vl

11/06/14,jb20952 cap specification.docx,27

-272014203147 11 Jun2014

IA14	Pluronic PE6400	FAIL	F	P
IA15	Pluronic PE6800	FAIL	F	F

Varying Non-Ionic Surfactants (Nonyl phenol ethoxylated combinations at

Varying Surfactant Ratios) [0076] Formulations containing haloxyfop at a loading of 900 g/L and using combinations of non-ionic surfactants, being nonyl phenol ethoxylates, and a single ionic surfactant, namely that supplied under the trade name Ninate 60E, with the ratios of the surfactants being varied were trialled. More details of these trials are set out in Appendix 2, which Appendix forms part of this specification. All formulations gave satisfactory results for cold temperature stability but unsatisfactory results for emulsion characteristics.

TABLE 2

Trial using different non-ionic surfactants (Nonyl phenol ethoxylated combination) at varying surfactant ratio
(Control:	Termul 203 as non-ionic surfactant Ionic Surfactant: Ninate 60E Solvent: Diethylene Glycol Monoethyl Ether)
	Summary of Results
Code	Name		E	CTS
A. Nonyl Phenol Ethoxylates
DI	Ninate: Teric N20 (10:90)	FAIL	F	P
D2	Ninate: Teric N13: Teric N20 (10:10:80)	FAIL	F	P
D3	Ninate:Teric N13:Teric N20 (5:10:85)	FAIL	F	P

11/06/14,jb20952 cap specification.docx,28

2014203147 11 Jun2014

D4	Ninate:Teric N10:Teric N20 (10:10:80)	FAIL	F	P
D5	Ninate:Teric N10:Teric N20 (5:10:85)	FAIL	F	P
D6	Ninate:Teric N8:Teric N20 (10:10:80)	FAIL	F	P
D7	Ninate:Teric N8:Teric N20 (5:10:85)	FAIL	F	P
D8	Ninate:Teric N2:Teric N20 (10:5:85)	FAIL	F	P
D9	Ninate:Teric N2:Teric N20 (5:5:90)	FAIL	F	P

Varying Non-Ionic Surfactants (Block Copolymer Combinations) at Varying

Surfactant Ratios [0077] Formulations containing haloxyfop at a loading of 900 g/L, and using combinations of non-ionic surfactants, being block copolymers, and a single ionic surfactant, being that supplied under the trade name Ninate 60E, with the ratios of the surfactants being varied were trialled. More details of these trials are set out in Appendix 3, which Appendix forms part of this specification. All formulations gave unsatisfactory results for both emulsion characteristics and cold temperature stability.

11/06/14,jb20952 cap specification.docx,29

-292014203147 11 Jun2014

TABLE 3

Trial using different non-ionic surfactants (co block polymer combination) at varying surfactant ratio
(Control:	Termul 203 as non-ionic surfactant Ionic Surfactant: Ninate 60E Solvent: Diethylene Glycol Monoethyl Ether)
	Summary of Results
Code	Name		E	CTS
A. Nonyl Phenol Ethoxylates
El	Ninate: Teric PE62: Teric PE68 (40:28:32)	FAIL	F	F
E2	Ninate: Teric PE 62: Teric PE68 (30:36:34)	FAIL	F	F
E3	Ninate: Teric PE 62: Teric PE68 (20:45:35)	FAIL	F	F
E4	Ninate: Teric PE 62: Teric PE68 (10:53:37)	FAIL	F	F
E5	Ninate: Teric PE 64: Teric PE68 (40:45:15)	FAIL	F	F
E6	Ninate: Teric PE 64: Teric PE68 (30:57:13)	FAIL	F	F
E7	Ninate: Teric PE 64: Teric PE68 (20:70:10)	FAIL	F	F
E8	Ninate: Teric PE 64: Teric PE68 (10:83:7)	FAIL	F	F

11/06/14,jb20952 cap specification.docx,30

-302014203147 11 Jun2014

Varying Non-Ionic Surfactant (Block Co-Polymer Combinations) at Varying

Surfactant Ratios in the Absence of Solvent [0078] Formulations containing haloxyfop at a loading of 900 g/L, and incorporating combinations of non-ionic surfactants, being block co-polymers, and a single ionic surfactant, being that supplied under the trade name Ninate 60E, with no solvent being present, and with the ratios of surfactants being varied, were trialled. More details of these trials are set out in Appendix 4, which Appendix forms part of this specification. All formulations gave unsatisfactory results for both emulsion characteristics and cold temperature stability.

TABLE 4

Trial using different non-ionic surfactants (co block polymer combination) at varying surfactant ratio without solvents
(Control:	Termul 203 as non-ionic surfactant Ionic Surfactant: Ninate 60E Solvent: None)
	Summary of Results
Code	Name		E	CTS
A. Nonyl Phenol Ethoxylates
FI	Ninate: Teric PE62: Teric PE68 (40:28:32)	FAIL	F	F
F2	Ninate: Teric PE 62: Teric PE68 (30:36:34)	FAIL	F	F
F3	Ninate: Teric PE 62: Teric PE68 (20:45:35)	FAIL	F	F
F4	Ninate: Teric PE 62: Teric PE68 (10:53:37)	FAIL	F	F

11/06/14,jb20952 cap specification.docx,31

2014203147 11 Jun2014

L5	Ninate: Teric PE 64: Teric PE68 (40:45:15)	FAIL	F	F
L6	Ninate: Teric PE 64: Teric PE68 (30:57:13)	FAIL	F	F
L7	Ninate: Teric PE 64: Teric PE68 (20:70:10)	FAIL	F	F
L8	Ninate: Teric PE 64: Teric PE68 (10:83:7)	FAIL	F	F

Varying Loading Only [0079] In each formulation in this set of trials, the ionic surfactant was that supplied under the trade name Ninate 60E and the non-ionic surfactant was that supplied under the trade name Termul 203, with the solvent being diethylene glycol monoethyl ether. More details of these trials are set out in Appendix 5, which Appendix forms part of this specification.

[0080] The formulations contained loadings of 950 g/L, 1000 g/L and

1050 g/L of haloxyfop, respectively. All were found to be stable, although there was a marked increase in viscosity as the loading increased with all formulations exhibiting unsatisfactory viscosity at 5°C.

11/06/14,jb20952 cap specification.docx,32

-322014203147 11 Jun2014

TABLE 5

Trial using different non-ionic surfactants at constant surfactant ratio
(Control:	Termul 203 as non-ionic surfactant Ionic Surfactant: Ninate 60E Solvent: Diethylene Glycol Monoethyl Ether)
	Summary of Results	30:70	Viscosity, cPs
Code	Name		E	CTS	@ 20°C	@ 5°C
A. Block Co-polymer
FI	Termul 203 (Haloxyfop 950)	FAIL	P	P	477	4,350
F2	Termul 203 (Haloxyfop 1000)	FAIL	P	P	912	10,100
F3	Termul 203 (Haloxyfop 1050)	PASS	P	P	1,840	25,000

Varying Solvent at Constant Surfactant Ratio [0081] In each formulation in this set of trials, the ionic surfactant was that supplied under the trade name Ninate 60E, the non-ionic surfactant was that supplied under the trade name Termul 203, and the solvent was propylene glycol mono methyl ether (PGME). More details of these trials are set out in Appendix 6, which Appendix forms part of this specification.

[0082] The formulations contained loadings of 950 g/L, 1000 g/L and

1050 g/L of haloxyfop, respectively. All formulations exhibited satisfactory emulsion characteristics and cold temperature stability, but only the formulation having a loading of 950 g/L haloxyfop met the viscosity criteria. This may indicate that 950 g/L may be an upper limit for haloxyfop loading according to the invention.

11/06/14,jb20952 cap specification.docx,33

-33 2014203147 11 Jun2014

TABLE 6

Trial using different non-ionic surfactants at constant surfactant ratio
(Control:	Termul 203 as non-ionic surfactant Ninate 60E as Ionic Surfactant Solvent: Propylene Glycol Monoethyl Ether ((PGME))
	Summary of Results	30:70	Viscosity, cPs
Code	Name		E	CTS	@ 5°C	@ 20°C
A. Block Co-polymer
Hl	Haloxyfop 950	PASS	P	P	1850	350
H2	Haloxyfop 1000	PASS	P	P	7100	635
H3	Haloxyfop 1050	PASS	P	P	57000	1660

Varying Ionic Surfactants at Constant Surfactant Ratio [0083] In these formulations the haloxyfop loading was maintained at substantially 900 g/L. The non-ionic surfactant was that as supplied under the trade mark Termul 203 and the solvent was diethylene glycol monoethyl ether. A single ionic surfactant chosen from a range of ionic surfactants was used in each instance, the range constituting members of the groups calcium dodecylebenzene sulphates, alkylphenol ether sulfate/tallow amine ethoxylated salts, and branched alcohol ether sulfate/tallow amine ethoxylated salts. The ratio of ionic to non-ionic surfactant was kept at 30:70. More details of these trials are set out in Appendix 7, which Appendix forms part of this specification.

[0084] All formulations, apart from that containing Toximul TAAPS 8, exhibited satisfactory emulsion characteristics and cold temperature stability.

12/12/17,3472646_l.docx,34

-342014203147 29 Jan 2018

TABLE7

Trial using different ionic surfactants at constant surfactant ratio
(Control:	Termul 203 as non-ionic surfactant Ionic Surfactant: Ninate 60E Solvent: Diethylene Glycol Monoethyl Ether)
	Summary of Results	30:70
Code	Name		E	CTS
A. Calcium Dodecylbenzene Sulphonate
IA9	Ninate 60E	PASS	P	P
IB9	Rhodacal 60//BE-C	PASS	P	P
IC9	Kemmat HF60	PASS	P	P
ID9	Nansa EVM 70/2E	PASS	P	P
IE9	Rhodacal 70	PASS	P	P
IF9	Rhodacal 70B	PASS	P	P
B. Alkylphenol ether sulfate/tallow amine ethoxylated salts
IG9	Toximul TANS 5	PASS	P	P
IH9	Toximul TANS 6	PASS	P	P
119	Toximul TANS 8	PASS	P	P
C. Branched alcohol ether sulfate/tallow amine ethoxylated salts
IJ9	Toximul TAABS 5	PASS	P	P
IK9	Toximul TAABS 8	PASS	P	P

Varying Solvents at Constant Surfactant Ratio [0085] In these trials the haloxyfop loading was maintained at substantially 900 g/L, the ionic surfactant was that as supplied under the trade

3472646vl

11/06/14,jb20952 cap specification.docx,35

2014203147 11 Jun2014

-35 name Ninate 60E, the non-ionic surfactant was that as supplied under the trade name Termul 203, and the ionic surfactant:non-ionic surfactant ratio was maintained at 30:70. More details of the trials are set out in Appendix 8, which Appendix forms part of this specification.

[0086] Only these formulations in which the solvent was diethylene glycol monoethyl ether or propylene glycol monomethyl ether exhibited satisfactory emulsion characteristics and cold temperature stability.

TABLE 8

Trial using different solvent surfactants at constant surfactant ratio (Control: Termul 203 as non-ionic surfactant Ionic Surfactant: Ninate 60E)
	Summary of Results	30:70
Code	Name		E	CTS
Solvents
IA9	Diethylene glycol monoethyl ether (DGME)	Pass	P	P
IIA9	Recosol 150	Pail	F	P
IIIA9	Recosol 200	Pail	F	P
IVA9	Xylene	Pail	F	P
VA9	Toluene	Pail	F	P
VIA9	Acetone	Pail	F	P
VIIA9	Dimethyl adipate	Pail	F	F
VIIIA9	Dimethyl succinate	Pail	F	F
IXA9	NMP	Fail	F	P

12/12/17,3472646J.docx,36

-362014203147 29 Jan 2018

XA9	Ethylene glycol mo no butyl ether	Pass	P	P
XIA9	Propylene glycol monomethyl ether (PGME)	Pass	P	P
XIIA9	Propylene glycol	Fail	N/A	F
XIIIA9	Diethylene glycol	Fail	N/A	F
XIVA9	Dipropylene glycol	Fail	F	F

Varying Surfactant Loading at Constant Surfactant Ratio [0087] In these formulations the haloxyfop loading was maintained at substantially 900 g/L, the ionic surfactant used was that as supplied under the trade name Ninate 60E, the non-ionic surfactant was that as supplied under the trade name Termul 203, the ratio of ionic to non-ionic surfactant was maintained at 30:70, and the solvent was diethylene glycol monoethyl ether. The total surfactant loading was varied. More details of the trials are set out in Appendix 9, which Appendix forms part of this specification.

[0088] Decreasing the total surfactant loading below 80% of the control loading resulted in unsatisfactory emulsion characteristics.

3472646v1

12/12/17,3472646_l.docx.37

- 372014203147 29 Jan 2018

TABLE9

Trial using different surfactant loadings at constant surfactant ratio (Control: Termul 203 as non-ionic surfactant
	Ionic Surfactant: Ninate 60E Solvent: Diethylene Glycol Monoethyl Ether)
Code	Name	Summary of Results	E	CTS	HLB
A. Haloxyfop 900 (Control Formulation)
J1	Original ratio 60:40 of surfactant At 80% surfactant loading	Pass	P	P	15.55
J2	Original ratio 60:40 of surfactant At 60% surfactant loading	Pass	P	P	15.55
J3	Original ratio 60:40 of surfactant At 40% surfactant loading	Fail	F	P	15.56
J4	Original ratio 60:40 of surfactant At 20% surfactant loading	Fail	F	P	15.58

Varying Haloxyfop Loading and Varying Non-Ionic Surfactant [0089] In these trials the haloxyfop was set at one of 900 g/L, 800 g/L and 700 g/L and a number of formulations at those loadings using one of a range of non-ionic surfactants, being nonyl phenol ethoxylates, and a block copolymer, were prepared. The ionic surfactant used was that as supplied under the trade name Ninate 60E, and the solvent was diethylene glycol monoethyl ether. The ionic surfactantmon-ionic surfactant ratio was maintained at 30:70. More details of those trials are set out in Appendix 10, which Appendix forms part of this specification.

3472646vl

12/12/17,3472646_l.docx, 38

-382014203147 29 Jan 2018 [0090] Only formulations incorporating the non-ionic surfactant as supplied under the trade name Toximul 8320 exhibited satisfactory emulsion characteristics and cold temperature stability at all three haloxyfop loadings used. At haloxyfop loadings of 900 g/L and 800 g/L formulations incorporating the non-ionic surfactant as supplied under the trade name Teric N9 exhibited satisfactory emulsion characteristics and cold temperature stability, but the formulation with 700 g/L haloxyfop loading exhibited unsatisfactory emulsion characteristics.

TABLE 10

Trials by varying non-ionic surfactant at different Haloxyfop loading (900 g/L, 800 g/L and 700 g/L) (Control: Termul 203 as non-ionic surfactant Ninate 60E as ionic surfactant DGME as Solvent) Trials were done using the following loading: Haloxyfop tech: varies (900 g/L, 800 g/L, 700 g/L) Solvent (DGME): ~ 185 g/L Anionic Surfactant (Ninate 60E): ~ 30 g/L Non-ionic Surfactant - Nonyl phenol ethoxylates (e.g., Teric N20, N30, N13, N15, N9) and block co-polymer (Toximul 8320): ~ 62-66 g/L
Code	Name	Summary of Results	E	CTS	HLB
Haloxyfop loading @ 900 g/L
4a	Toximul 8320	Pass	P	P	11.53
4b	Teric N20	Pass	P	P	14.20
4c	Teric N30	Fail	F	P	15.07
4d	Teric N13	Pass	P	P	13.14
4e	Teric N15	Fail	F	P	13.57

3472646v1

11/06/14,jb20952 cap specification.docx,39

-392014203147 11 Jun2014

4f	Teric N9	Pass	P	P	12.08
Haloxyfop loading @ 800 g/L
4g	Toximul 8320	Pass	P	P	11.57
4h	Teric N20	Pail	F	P	15.22
4i	Teric N30	Pail	F	P	14.39
4j	Teric N13	Pail	F	P	13.65
4k	Teric N15	Fail	F	P	12.95
41	Teric N9	Pass	P	P	12.08
Haloxyfop loading @ 700 g/L
4m	Toximul 8320	Pass	P	P	11.55
4n	Teric N20	Fail	F	P	15.13
4o	Teric N30	Fail	F	P	14.32
4p	Teric N13	Fail	F	P	13.63
4q	Teric N15	Fail	F	P	13.00
4r	Teric N9	Fail	F	P	12.12

Varying ionic Surfactant and Non-Ionic Surfactant at Constant Surfactant Ratio [0091] The haloxyfop loading in the formulations used in these trials was maintained at substantially 900 g/L, the solvent used was diethylene glycol monoethyl ether, the non-ionic surfactant used was either a nonyl phenol ethoxylate as supplied under the trade name Teric N9 or a block co-polymer as supplied under the trade name Termul 8320. The ionic surfactant used was one selected from a range and the ionic surfactant:non-ionic surfactant ratio was maintained at 30:70. More details of the trials are set out in Appendix 11, which Appendix forms part of this specification.

12/12/17,3472646_1 .docx,40

-402014203147 29 Jan 2018 [0092] Combinations of N9 and an ionic surfactant did not yield satisfactory formulations, while combinations of Toximul 8320 and anionic surfactants as supplied under the trade name Rhodacal 70 and Rhodacal 70B also did not yield satisfactory formulations, all exhibiting unsatisfactory emulsion characteristics.

TABLE 11

Trials using different anionic surfactants and non-ionic surfactants at constant surfactant ratio
(Control: Termul 203 as non-ionic surfactant Ninate 60E as ionic surfactant DGME as Solvent) Trials were done using the following loading:
Haloxyfop tech: 900 g/L
Solvent (DGME): ~ 175 g/L Anionic Surfactant: varies (Kemmat HF60, Nansa 70EVM, Rhodacal 70, Rhodacal 70B: ~ 26-33 g/L Non-ionic Surfactant (Nonyl phenol ethoxylate - Teric N9) or (Block copolymer - Toximul 8320: ~ 61-67 g/L
Code	Name	Summary of Results	E	CTS	HLB
Solvents
4s	T8320 / Kemmat HF60	Pass	P	P	11.72
4t	T8320 / Nansa 70 EVM	Pass	P	P	11.72
4u	T8320 / Rhodacal 70	Fail	F	P	11.70
4v	T8320 / Rhodacal 70B	Fail	F	P	10.85
4w	TN9 / Kemmat HF60	Fail	F	P	12.27
4x	TN9/Nansa 70 EVM	Pass	P	P	12.23
4y	TN9 / Rhodacal 70	Pass	P	P	12.25
4z	TN9 / Rhodacal 70B	Pass	P	P	11.49

3472646v1

11/06/14,jb20952 cap specification.docx,41

2014203147 11 Jun2014

-41 Varying Solvents at Constant Surfactant Ratio [0093] Further trials were carried out on formulations having a haloxyfop loading of 900 g/L. The ionic surfactant used was that as supplied under the trade name Ninate 60E and the non-ionic surfactant used was that as supplied under the trade name Termul 203, with the anionic surfactantmonionic surfactant ratio being set at 30:70. More details of these trials are set out in Appendix 12, which Appendix forms part of this specification.

[0094] Solvents giving rise to satisfactory formulations were ethylene glycol monobutyl ether (EGME), (e.g., butyl glysolv), toluene, and acetone. Dimethyl succinate and dimethyl adipate were not effective solvents and no homogenous solutions were obtained with these solvents. The unsatisfactory formulations did not exhibit desired emulsion characteristics.

TABLE 12

Trials using different solvents (Control: Termul 203 as non-ionic surfactant Ninate 60E as ionic surfactant DGME as Solvent) Trials were done using the following loading: Haloxyfop tech: 900 g/L Solvent varies (e.g., R150, R200, EGME, Dimethyl succinate, Toluene, Acetone, Dimethyl adipate, xylene, NMP and Exxate 700): ~ 160-190 g/L Anionic Surfactant (Ninate 60E): ~ 25-29 g/L Non-ionic Surfactant (Block co-polymer - Toximul 8320: ~ 60-64 g/L
Code	Name	Summary of Results	E	CTS	HLB
Solvents
4ae	R200	Fail	F	P	11.54

11/06/14,jb20952 cap specification.docx,42

-422014203147 11 Jun2014

4af	EGME	Pass	P	P	11.56
4ag	R150	Fail	F	P	11.53
4ah	EGME	Pass	P	P	11.55
4ai	Dimethyl Succinate	Fail *	*	*	11.55
4aj	Toluene	Pass	P	P	11.55
4ak	Acetone	Pass	P	P	11.54
4al	Dimethyl Adipate	Fail *	*	*	11.52
4am	Xylene	Fail	F	P	11.56
4an	NMP	Fail	F	P	11.53
4ao	Exxate 700	Fail	F	P	11.56

Examples of Formulations Exhibiting Satisfactory Characteristics [0095] Examples of haloxyfop formulations prepared according to the present invention which exhibit satisfactory characteristics (as demonstrated by the trials discussed above) are set out in Table 13 for ease of reference.

TABLE 13

Trial Code	Appendix	Haloxyfop Loading g/L	Solvent & Loading g/L	Ionic Surfactant & Loading g/L	Non-Ionic Surfactant & Loading g/L
IA9	1	899 (+95)	DGME 183.5	Ninate 60E 27	Termul 203 63
Hl	6	950 (+100)	PGME 126	Ninate 60E 26	Termul 203 61
IB9	7	898 (+94)	DGME 187	Rhodacal 60/BE-C 27	Termul 203 60

11/06/14,jb20952 cap specification.docx,43

2014203147 11 Jun2014

IC9	7	896 (+94)	DGME 187	Kemmat HF60 28	Termul 203 61
ID9	7	899 (+95)	DGME 184	Nansa EVM 70/2E 27	Termul 203 62
IE9	7	896 (+94)	DGME 187	Rhodacal 70 28	Termul 203 62
IF9	7	897 (+94)	DGME 186	Rhodacal 70B 26	Termul 203 62
IG9	7	897 (+94)	DGME 186	Toximul TANS 5 27	Termul 203 61
IH9	7	896 (+94)	DGME 185	Toximul TANS 6 29	Termul 203 62
119	7	901 (+95)	DGME 183	Toximul TANS 8 26	Termul 203 61
U9	7	897 (+94)	DGME 187	Toximul TAABS 5 26	Termul 203 62
XIA9	8	900 (+95)	PGME 184	Ninate 60E 26	Termul 203 61
J1	9	900 (+95)	DGME 196	Ninate 60E 21	Termul 203 49
4a	10	900 (+95)	DGME 184	Ninate 60E 29	Toximul 8320 62

11/06/14,jb20952 cap specification.docx,44

-442014203147 11 Jun2014

4f	10	901 (+95)	DGME 188	Ninate 60E 30	Teric N9 66
4g	10	802 (+84)	DGME 274	Ninate 60E 25	Toximul 8320 64
41	10	802 (+84)	DGME 266	Ninate 60E 28	Teric N9 61
4m	10	703 (+95)	DGME 338	Ninate 60E 28	Toximul 8320 65
4s	11	900 (+95)	DGME 175	Kemmat HF60 26	Toximul 8320 67
4t	11	900 (+95)	DGME 176	Nansa EVM 70/2E 26	Toximul 8320 68
4af	12	900 (+95)	EGME 166	Ninate 60E 27	Toximul 8320 64

Note 1: Ninate 60E given weight includes carrier solvent

Note 2: Rhodacal 60/BE-C given weight includes carrier solvent Note 3: Kemmat HF60 given weight includes carrier solvent Note 4: Nansa EVM 70/2E given weight includes carrier solvent Note 5: Rhodacal 70 given weight includes carrier solvent Note 6: Other anionic surfactants, weight includes carrier solvent Note 7: EGME = ethyleneglycolmonobutyl ether = butyl glysolv Note 8: PGME = propyleneglycolmonoethyl ether

Source of Technical Grade Active (Haloxyfop-P-methyl (CAS# 72619-32-0)):

Manufactured by Jinan Luba Chemicals Co Ltd, 26 South Xizhou Road, Lichen, Jinan, P.R. CHINA;

Purchased from Zhejiang Chemical Industrial Co Ltd, P.R. CHINA

11/06/14,jb20952 cap specification.docx,45

2014203147 11 Jun2014

-45 Agronomic Trial [0096] Haloxyfop 900 and Haloxyfop 520 were compared in the field for brome and wild oat control, and for crop phyto toxicity. Plot size was 2.5m x 10m, 3 replicates. Treatments were applied with a hand boom. % wild oat and brome grass were assessed visually. The results were:

• At all rates (50 ml/ha, 100 ml/ha and 200 ml/ha for Haloxyfop 520 and 29 ml/ha, 58 ml/ha and 116 ml/ha for Haloxyfop 900) there was found to be 100% control of wild oats and brome grass.

• Speed of kill was observed to be slightly faster at higher rates used with both formulations.

• No phytotoxicity was observed from either Haloxyfop 520 or Haloxyfop 900, even in the double rate treatments.

• Both Haloxyfop 520 and Haloxyfop 900 mixed well in the field.

• None of the ryegrass present in the trial was controlled by the haloxyfop formulations because the ryegrass was resistant to Fops (common in the trial area of Wycheproof, Victoria, Australia).

[0097] The complete disclosures of any patents, patent documents, and publications cited herein are incorporated by reference in their entirety as if each were individually incorporated. Various modifications and alterations to this invention will become apparent to those skilled in the art without departing from the scope and spirit of this invention. It should be understood that this

11/06/14,jb20952 cap specification.docx,46

-462014203147 11 Jun2014 invention is not intended to be unduly limited by the illustrative embodiments and examples set forth herein and that such examples and embodiments are presented by way of example only with the scope of the invention intended to be limited only by the claims set forth herein as follows.

[0098] Throughout this specification and the claims which follow, unless the context requires otherwise, the word “comprise”, and variations such as “comprises” or “comprising”, will be understood to imply the inclusion of a stated integer or step or group of integers or steps but not the exclusion of any other integer or step or group of integers or steps.

[0099] The reference in this specification to any prior publication (or information derived from it), or to any matter which is known, is not, and should not be taken as an acknowledgment or admission or any form of suggestion that that prior publication (or information derived from it) or known matter forms part of the common general knowledge in the field of endeavour to which this specification relates.

11/06/14,jb20952 cap specification.docx,47

-472014203147 11 Jun2014

APPENDIX 1

Trial # IA1

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Termul 200 as non-ionic surfactants against Ninate 60E

Ratio of N60E: Termul 200 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Termul 200: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	CAS#	Function	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	72619-32-0	Active ingredient	4978.3	899
Solvent used: Diethylene Glycol Monoethyl Ether	111-90-0	Solvent	917.5	183
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	CABS ( 68584-23-6) & 2-ethyl hexanol (104-76-7)	Surfactant	136.7	27
Alkoxylated alkyl phenol used: Termul 200 (non-ionic surfactant)	37251-69-7	Surfactant	313.3	63
Total			6345.8

RESULTS OF FORMULATION
Parameter	Method	Required	Results	Remarks
Appearance	Visual	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	Validated chromatographic method (Accuracy: 98-102%) (Linearity: R > 0.99) (Precision: s/average < 2%)	875 to 925g/L Haloxyfop		n/a
pH at 1%aq. Solution	MT 75.3	6 to 8		n/a
Specific gravity (temperature at 20C)	CIPAC MT 3.1	1.25 to 1.27		n/a

11/06/14,jb20952 cap specification.docx,48

-48 2014203147 11 Jun2014

Emulsion characteristics	CIPAC MT 36.1	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 4ml cream&oil@bottom	Failed
Persistent Foaming	CIPAC MT 47.2	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	MT75.3	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	MT 192	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	MT 192	0 to 2000cPs		n/a
Long Term Performance	Various as per above	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING, BECAUSE EMULSION CHARACTERISTICS FAILED

Trial # IA2

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Teric N2 as non-ionic surfactants against Ninate 60E

Ratio of N60E: Teric N2 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Teric N2: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate	4979.2	899
eg. Haloxyfop Tech (94% purity)
Solvent	925.8	185

11/06/14,jb20952 cap specification.docx,49

-492014203147 11 Jun2014

used: Diethylene Glycol Monoethyl Ether
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	135.0	27
Nonyl Phenol ethoxylates used: Teric N2 (non-ionic surfactant)	305.0	61
Total	6345.0

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1%aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 3ml oil@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING, BECAUSE EMULSION CHARACTERISTICS FAILED

11/06/14,jb20952 cap specification.docx,50

-502014203147 11 Jun2014

Trial # IA3

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Teric N8 as non-ionic surfactants against Ninate 60E

Ratio of N60E: Teric N8 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Teric N8: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4970.0	897
Solvent used: Diethylene Glycol Monoethyl Ether	934.2	186
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	132.5	26
Nonyl Phenol ethoxylates used: Teric N8 (non-ionic surfactant)	313.3	62
Total	6350.0

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1%aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 4ml cream&oil@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a

11/06/14,jb20952 cap specification.docx,51

2014203147 11 Jun2014

Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING, BECAUSE EMULSION CHARACTERISTICS FAILED

Trial # IA4

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Teric N10 as non-ionic surfactants against Ninate 60E

Ratio of N60E: Teric N10 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Teric N10: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4971.7	899
Solvent used: Diethylene Glycol Monoethyl Ether	925.0	185
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	132.5	26
Nonyl Phenol ethoxylates	304.2	61

11/06/14,jb20952 cap specification.docx,52

-522014203147 11 Jun2014

used: Teric N10 (non-ionic surfactant)
Total	6333.3

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 4ml cream&oil@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING, BECAUSE EMULSION CHARACTERISTICS FAILED

Trial # IA5

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Teric N13 as non-ionic surfactants against Ninate 60E

Ratio of N60E: Teric N13 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Teric N13: Diethylene Glycol monoethyl ether

11/06/14,jb20952 cap specification.docx,53

2014203147 11 Jun2014

-53 FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4967.5	899
Solvent used: Diethylene Glycol Monoethyl Ether	932.5	187
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	127.5	26
Nonyl Phenol ethoxylates used: Teric N13 (non-ionic surfactant)	302.5	61
Total	6330.0

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete reemulsion after 24h	milky emulsion, no separation, 4ml cream&oil@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a

11/06/14,jb20952 cap specification.docx,54

-542014203147 11 Jun2014

General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING, BECAUSE EMULSION CHARACTERISTICS FAILED

Trial # IA6

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Teric N20 as non-ionic surfactants against Ninate 60E

Ratio of N60E: Teric N20 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Teric N20: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4980.8	899
Solvent used: Diethylene Glycol Monoethyl Ether	917.5	183
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	133.3	27
Nonyl Phenol ethoxylates used: Teric N20 (non-ionic surfactant)	313.3	63
Total	6345.0

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a

12/12/17,3472646_l.docx,55

-552014203147 29 Jan 2018

Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 2ml cream ©bottom	Passed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	PASS
Description:	SOLUTION MEETS ALL CRITERIA

Trial # IA7

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Termul 1284 as non-ionic surfactants against Ninate 60E Ratio of N60E: Termul 1284 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Termul 1284: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate	4974.2	899
eg. Haloxyfop Tech (94% purity)
Solvent used: Diethylene Glycol Monoethyl Ether	922.5	184
Calcium C10-16 alkyl benzenesulfonic acid	135.0	27

3472646v 1

11/06/14,jb20952 cap specification.docx,56

-562014203147 11 Jun2014

Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)
Castor Oil Ethoxylates used: Termul 1284 (non-ionic surfactant)	305.8	61
Total	6337.5

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 5ml cream @bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING, BECAUSE EMULSION CHARACTERISTICS FAILED

11/06/14,jb20952 cap specification.docx,57

-572014203147 11 Jun2014

Trial # IA8

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Termul 1285 as non-ionic surfactants against Ninate 60E

Ratio of N60E: Termul 1285 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Termul 1285: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4968.3	899
Solvent used: Diethylene Glycol Monoethyl Ether	921.7	184
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	136.7	27
Castor Oil Ethoxylates used: Termul 1285 (non-ionic surfactant)	304.2	61
Total	6330.8

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 5ml cream&oil@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a

11/06/14,jb20952 cap specification.docx,58

2014203147 11 Jun2014

Trial # IA9

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Termul 203 as non-ionic surfactants against Ninate 60E Ratio of N60E: Termul 203 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Termul 203: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2- pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4978.3	899
Solvent used: Diethylene Glycol Monoethyl Ether	917.5	183
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	136.7	27
Block Co-polymer used: Termul 203 (non-ionic surfactant)	313.3	63
Total	6345.8

11/06/14,jb20952 cap specification.docx,59

-592014203147 11 Jun2014

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	899g/L	Passed
pH at 1 % aq. Solution	6 to 8	7.35	Passed
Specific gravity (temperature at 20C)	1.25 to 1.27	1.266	Passed
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 0.3ml cream@bottom	Passed
Persistent Foaming	<60mL after 1 min	25ml	Passed
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs	1212cps	Passed
Viscosity (temperature at 20C)	0 to 2000cPs	315cps	Passed
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	PASS
Description:	SOLUTION MEETS ALL CRITERIA

Trial # IA10

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using TSP 16 as non-ionic surfactants against Ninate 60E

Ratio of N60E: TSP 16 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: TSP 16: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate	4979.2	895

11/06/14,jb20952 cap specification.docx,60

-602014203147 11 Jun2014

eg. Haloxyfop Tech (94% purity)
Solvent used: Diethylene Glycol Monoethyl Ether	946.7	188
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	133.3	26
Block Co-polymer used: TSP 16 (non-ionic surfactant)	311.7	62
Total	6370.8

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 4ml oil&cream@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING, BECAUSE EMULSION CHARACTERISTICS FAILED

11/06/14,jb20952 cap specification.docx,61

-61 2014203147 11 Jun2014

Trial # IA11

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Teric PE 62 as non-ionic surfactants against Ninate 60E

Ratio of N60E: Teric PE 62 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Teric PE 62: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4973.3	899
Solvent used: Diethylene Glycol Monoethyl Ether	926.7	185
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	132.5	26
Block Co-polymer used: Teric PE 62 (non-ionic surfactant)	307.5	61
Total	6340.0

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 4ml oil&cream@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a

11/06/14,jb20952 cap specification.docx,62

-622014203147 11 Jun2014

Trial # IA12

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Teric PE 64 as non-ionic surfactants against Ninate 60E

Ratio of N60E: Teric PE 64 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Teric PE 64: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4982.5	899
Solvent used: Diethylene Glycol Monoethyl Ether	924.2	184
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	138.3	28
Block Co-polymer	303.3	60

11/06/14,jb20952 cap specification.docx,63

2014203147 11 Jun2014

used: Teric PE 64 (non-ionic surfactant)
Total	6348.3

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 5ml oil&cream@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING, BECAUSE EMULSION CHARACTERISTICS FAILED

Trial # IA13

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Teric PE 68 as non-ionic surfactants against Ninate 60E Ratio of N60E: Teric PE 68 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Teric PE 68: Diethylene Glycol monoethyl ether

11/06/14,jb20952 cap specification.docx,64

-642014203147 11 Jun2014

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4977.5	900
Solvent used: Diethylene Glycol Monoethyl Ether	917.5	183
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	136.7	27
Block Co-polymer used: Teric PE 68 (non-ionic surfactant)	306.7	61
Total	6338.3

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 5ml oil&cream@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, formed lumps	Failed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a

11/06/14,jb20952 cap specification.docx,65

2014203147 11 Jun2014

General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING, BECAUSE EMULSION CHARACTERISTICS AND COLD STAB FAILED

Trial # IA14

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Pluronic 6400 as non-ionic surfactants against Ninate 60E Ratio of N60E: Pluronic 6400 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Pluronic 6400: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4970.0	899
Solvent used: Diethylene Glycol Monoethyl Ether	926.7	185
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	130.0	26
Block Co-polymer used: Pluronic 6400 (non-ionic surfactant)	310.0	62
Total	6336.7

11/06/14,jb20952 cap specification.docx,66

-662014203147 11 Jun2014

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1%aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 4ml oil&cream@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING, BECAUSE EMULSION CHARACTERISTICS FAILED

11/06/14,jb20952 cap specification.docx,67

-672014203147 11 Jun2014

Trial # IA15

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Pluronic 6800 as non-ionic surfactants against Ninate 60E

Ratio of N60E: Pluronic 6800 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Pluronic 6800: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4972.5	900
Solvent used: Diethylene Glycol Monoethyl Ether	925.8	185
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	128.3	26
Block Co-polymer used: Teric PE 68 (non-ionic surfactant)	304.2	61
Total	6330.8

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 5ml oil&cream@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a

11/06/14,jb20952 cap specification.docx,68

2014203147 11 Jun2014

Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, formed lumps	Failed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING, BECAUSE EMULSION CHARACTERISTICS AND COLD STAB FAILED

11/06/14,jb20952 cap specification.docx,69

-692014203147 11 Jun2014

APPENDIX 2

Trial # D1

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Ratio of N60E: Teric N20 (10:90)

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4972.1	900
Solvent used: Diethylene Glycol Monoethyl Ether	890.7	178
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	47.1	9
Nonyl phenol ethoxylated used: Teric N20 (non-ionic surfactant)	418.6	84
Total	6328.6

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 3ml oil&cream @bottom	Failed

11/06/14,jb20952 cap specification.docx,70

-702014203147 11 Jun2014

Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING, BECAUSE EMULSION CHARACTERISTICS FAILED

Trial # D2

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Teric N13 and Teric N20 as non-ionic surfactants against Ninate 60E

Ratio of N60E: Teric N13: Teric N20 (10:10:80)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Teric N13: Teric N20: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate	4975.0	901
eg. Haloxyfop Tech (94% purity)
Solvent used: Diethylene Glycol Monoethyl Ether	892.9	179
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol	46.4	9
used: Ninate 60E (anionic surfactant)
Nonyl phenol ethoxylated	46.4	9

11/06/14,jb20952 cap specification.docx,71

2014203147 11 Jun2014

used: Teric N13 (non-ionic surfactant)
Nonyl phenol ethoxylated used: Teric N20 (non-ionic surfactant)	367.9	74
Total	6328.6

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 5ml oil&cream @bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING, BECAUSE EMULSION CHARACTERISTICS FAILED

11/06/14,jb20952 cap specification.docx,72

-722014203147 11 Jun2014

Trial # D3

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Ratio of N60E: Teric N13: Teric N20 (5:10:85)

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4975.0	899
Solvent used: Diethylene Glycol Monoethyl Ether	895.7	179
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	22.1	4
Nonyl phenol ethoxylated used: Teric N13 (non-ionic surfactant)	50.0	10
Nonyl phenol ethoxylated used: Teric N20 (non-ionic surfactant)	395.0	79
Total	6337.9

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 4ml oil&cream @bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a

11/06/14,jb20952 cap specification.docx,73

2014203147 11 Jun2014

Trial # D4

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Teric N10 and Teric N20 as non-ionic surfactants against Ninate 60E

Ratio of N60E: Teric N10: Teric N20 (10:10:80)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Teric N10: Teric N20: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate	4975.7	900
eg. Haloxyfop Tech (94% purity)
Solvent used: Diethylene Glycol Monoethyl Ether	894.3	179
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol	45.7	9
used: Ninate 60E (anionic surfactant)
Nonyl phenol ethoxylated	46.4	9
used: Teric N10 (non-ionic surfactant)

11/06/14,jb20952 cap specification.docx,74

-742014203147 11 Jun2014

Nonyl phenol ethoxylated used: Teric N20 (non-ionic surfactant)	370.0	74
Total	6332.1

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 4ml oil&cream @bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING, BECAUSE EMULSION CHARACTERISTICS FAILED

11/06/14,jb20952 cap specification.docx,75

-75 2014203147 11 Jun2014

Trial # D5

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Ratio of N60E: Teric N10: Teric N20 (5:10:85)

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4970.7	900
Solvent used: Diethylene Glycol Monoethyl Ether	892.1	178
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	22.9	5
Nonyl phenol ethoxylated used: Teric N10 (non-ionic surfactant)	46.4	9
Nonyl phenol ethoxylated used: Teric N20 (non-ionic surfactant)	395.7	79
Total	6327.9

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 3ml cream @bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a

11/06/14,jb20952 cap specification.docx,76

-762014203147 11 Jun2014

Trial # D6

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Teric N8 and Teric N20 as non-ionic surfactants against Ninate 60E

Ratio of N60E: Teric N8: Teric N20 (10:10:80)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Teric N8: Teric N20: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate	4972.9	901
eg. Haloxyfop Tech (94% purity)
Solvent used: Diethylene Glycol Monoethyl Ether	890.7	178
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol	44.3	9
used: Ninate 60E (anionic surfactant)
Nonyl phenol ethoxylated	44.3	9
used: Teric N8 (non-ionic surfactant)

11/06/14,jb20952 cap specification.docx,77

2014203147 11 Jun2014

Nonyl phenol ethoxylated used: Teric N20 (non-ionic surfactant)	370.7	74
Total	6322.9

11/06/14,jb20952 cap specification.docx,78

2014203147 11 Jun2014

-78 Trial # D7

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Ratio of N60E: Teric N8: Teric N20 (5:10:85)

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4970.0	901
Solvent used: Diethylene Glycol Monoethyl Ether	891.4	179
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	21.4	4
Nonyl phenol ethoxylated used: Teric N8 (non-ionic surfactant)	45.0	9
Nonyl phenol ethoxylated used: Teric N20 (non-ionic surfactant)	394.3	79
Total	6322.1

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 5ml oil&cream @bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a

11/06/14,jb20952 cap specification.docx,79

-792014203147 11 Jun2014

Trial # D8

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Teric N2 and Teric N20 as non-ionic surfactants against Ninate 60E

Ratio of N60E: Teric N2: Teric N20 (10:5:85)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Teric N2: Teric N20: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4976.4	899
Solvent used: Diethylene Glycol Monoethyl Ether	895.0	179
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	47.9	10
Nonyl phenol ethoxylated used: Teric N2 (non-ionic surfactant)	22.9	5
	397.9	79

11/06/14,jb20952 cap specification.docx,80

-802014203147 11 Jun2014

Nonyl phenol ethoxylated used: Teric N20 (non-ionic surfactant)
Total	6340.0

11/06/14,jb20952 cap specification.docx,81

2014203147 11 Jun2014

-81 Trial # D9

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Ratio of N60E: Teric N2: Teric N20 (5:5:90)

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4970.7	900
Solvent used: Diethylene Glycol Monoethyl Ether	893.6	179
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	24.3	5
Nonyl phenol ethoxylated used: Teric N2 (non-ionic surfactant)	22.9	5
Nonyl phenol ethoxylated used: Teric N20 (non-ionic surfactant)	417.1	83
Total	6328.6

11/06/14,jb20952 cap specification.docx,82

-822014203147 11 Jun2014

11/06/14,jb20952 cap specification.docx,83

2014203147 11 Jun2014

-83 APPENDIX 3

Trial # E1

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Teric PE62 and Teric PE68 as non-ionic surfactants against Ninate 60E

Ratio of N60E: Teric PE62: Teric PE68 (40:28:32)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Teric PE62: Teric PE68: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4972.9	902
Solvent used: Diethylene Glycol Monoethyl Ether	892.9	179
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	178.6	36
Block co-polymer used: Teric PE 62 (non-ionic surfactant)	125.0	25
Co block polymer used: Teric PE 68 (non-ionic surfactant)	145.0	29
Total	6314.3

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a

11/06/14,jb20952 cap specification.docx,84

-842014203147 11 Jun2014

Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 5ml oil&cream @bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, solidify	Failed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING, BECAUSE EMULSION CHARACTERISTICS AND COLD STAB FAILED

Trial # E2

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Teric PE62 and Teric PE68 as non-ionic surfactants against Ninate 60E Ratio of N60E: Teric PE62: Teric PE68 (30:36:34)

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate	4972.1	903
eg. Haloxyfop Tech (94% purity)
Solvent used: Diethylene Glycol Monoethyl Ether	890.7	179
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol	133.6	27
used: Ninate 60E (anionic surfactant)
	161.4	32

11/06/14,jb20952 cap specification.docx,85

-852014203147 11 Jun2014

Block co-polymer used: Teric PE 62 (non-ionic surfactant
Block co-polymer used: Teric PE 68 (non-ionic surfactant)	153.6	31
Total	6311.4

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 4ml oil&cream @bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, solidify	Failed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING, BECAUSE EMULSION CHARACTERISTICS AND COLD STAB FAILED

11/06/14,jb20952 cap specification.docx,86

-862014203147 11 Jun2014

Trial # E3

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Ratio of N60E: Teric PE62: Teric PE68 (20:45:35)

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4971.4	902
Solvent used: Diethylene Glycol Monoethyl Ether	892.9	179
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	88.6	18
Block co-polymer used: Teric PE 62 (non-ionic surfactant	202.1	41
Block co-polymer used: Teric PE 68 (non-ionic surfactant)	157.1	32
Total	6312.1

11/06/14,jb20952 cap specification.docx,87

-872014203147 11 Jun2014

Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, solidify	Failed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING, BECAUSE EMULSION CHARACTERISTICS AND COLD STAB FAILED

Trial # E4

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Ratio of N60E: Teric PE62: Teric PE68 (10:53:37)

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4971.4	903
Solvent used: Diethylene Glycol Monoethyl Ether	889.3	178
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	45.0	9
Block co-polymer used: Teric PE 62 (non-ionic surfactant	238.6	48
	165.7	33

11/06/14,jb20952 cap specification.docx,88

-882014203147 11 Jun2014

Block co-polymer used: Teric PE 68 (non-ionic surfactant)
Total	6310.0

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete reemulsion after 24h	milky emulsion, no separation, 5ml oil&cream @bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, solidify	Failed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING, BECAUSE EMULSION CHARACTERISTICS AND COLD STAB FAILED

11/06/14,jb20952 cap specification.docx,89

-892014203147 11 Jun2014

Trial # E5

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Teric PE64 and Teric PE68 as non-ionic surfactants against Ninate 60E

Ratio of N60E: Teric PE64: Teric PE68 (40:45:15)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Teric PE64: Teric PE68: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4972.9	902
Solvent used: Diethylene Glycol Monoethyl Ether	897.9	180
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	178.6	36
Block co-polymer used: Teric PE 64 (non-ionic surfactant	199.3	40
Block co-polymer used: Teric PE 68 (non-ionic surfactant)	66.4	13
Total	6315.0

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 2ml solid crystals & 2.5ml oil&cream @bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a

11/06/14,jb20952 cap specification.docx,90

-902014203147 11 Jun2014

Trial # E6

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Teric PE64 and Teric PE68 as non-ionic surfactants against Ninate 60E Ratio of N60E: Teric PE64: Teric PE68 (30:57:13)

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4972.1	903
Solvent used: Diethylene Glycol Monoethyl Ether	893.6	179
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	131.4	26
Block co-polymer used: Teric PE 64 (non-ionic surfactant	252.1	51
Block co-polymer	57.9	12

11/06/14,jb20952 cap specification.docx,91

-91 2014203147 11 Jun2014

used: Teric PE 68 (non-ionic surfactant)
Total	6307.1

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 2.5ml solid crystals & 2.5ml oil&cream @bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, solidify	Failed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING, BECAUSE EMULSION CHARACTERISTICS AND COLD STAB FAILED

11/06/14,jb20952 cap specification.docx,92

-922014203147 11 Jun2014

Trial # E7

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Ratio of N60E: Teric PE64: Teric PE68 (20:70:10)

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4972.1	902
Solvent used: Diethylene Glycol Monoethyl Ether	899.3	180
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	88.6	18
Block co-polymer used: Teric PE 64 (non-ionic surfactant	309.3	62
Block co-polymer used: Teric PE 68 (non-ionic surfactant)	45.0	9
Total	6314.3

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 4.5ml solid crystals&oil & 0.5ml cream @bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a

11/06/14,jb20952 cap specification.docx,93

2014203147 11 Jun2014

Trial # E8

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Ratio of N60E: Teric PE64: Teric PE68 (10:83:7)

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4976.4	904
Solvent used: Diethylene Glycol Monoethyl Ether	895.0	180
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	42.9	9
Block co-polymer used: Teric PE 64 (non-ionic surfactant	362.9	73
	30.0	6

11/06/14,jb20952 cap specification.docx,94

-942014203147 11 Jun2014

Block co-polymer used: Teric PE 68 (non-ionic surfactant)
Total	6307.1

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1%aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 4.5ml oil &solid crystals & 0.5ml cream @bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, solidify	Failed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING, BECAUSE EMULSION CHARACTERISTICS AND COLD STAB FAILED

11/06/14,jb20952 cap specification.docx,95

2014203147 11 Jun2014

-95 APPENDIX 4

Trial # F1

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Ratio of N60E: Teric PE62: Teric PE68 (40:28:32)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Teric PE62: Teric PE68: no solvents

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4972.9	900
Solvent used: Diethylene Glycol Monoethyl Ether	0.0	0
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	544.3	109
Block co-polymer used: Teric PE 62 (non-ionic surfactant)	379.3	76
Block co-polymer used: Teric PE 68 (non-ionic surfactant)	435.0	87
Total	6331.4

11/06/14,jb20952 cap specification.docx,96

-962014203147 11 Jun2014

Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 4ml cream&oil @bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, solidify	Failed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING, BECAUSE EMULSION CHARACTERISTICS AND COLD STAB FAILED

Trial # F2

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Ratio of N60E: Teric PE62: Teric PE68 (30:36:34)

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4974.3	899
Solvent used: Diethylene Glycol Monoethyl Ether	0.0	0
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol	410.7	82

11/06/14,jb20952 cap specification.docx,97

-972014203147 11 Jun2014

used: Ninate 60E (anionic surfactant)
Block co-polymer used: Teric PE 62 (non-ionic surfactant	491.4	98
Block co-polymer used: Teric PE 68 (non-ionic surfactant)	462.9	92
Total	6339.3

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete reemulsion after 24h	milky emulsion, no separation, 6ml cream&oil @bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, solidify	Failed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING, BECAUSE EMULSION CHARACTERISTICS AND COLD STAB FAILED

11/06/14,jb20952 cap specification.docx,98

2014203147 11 Jun2014

-98 Trial # F3

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Ratio of N60E: Teric PE62: Teric PE68 (20:45:35)

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4972.9	899
Solvent used: Diethylene Glycol Monoethyl Ether	0.0	0
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	273.6	55
Block co-polymer used: Teric PE 62 (non-ionic surfactant	615.0	123
Block co-polymer used: Teric PE 68 (non-ionic surfactant)	477.9	95
Total	6339.3

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 3ml cream&oil @bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a

11/06/14,jb20952 cap specification.docx,99

-992014203147 11 Jun2014

Trial # F4

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Ratio of N60E: Teric PE62: Teric PE68 (10:53:37)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Teric PE62: Teric PE68: no solvents FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4972.9	898
Solvent used: Diethylene Glycol Monoethyl Ether	0.0	0
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	136.4	27
Block co-polymer used: Teric PE 62 (non-ionic surfactant	727.1	145
Block co-polymer	507.1	101

11/06/14,jb20952 cap specification.docx,100

- 1002014203147 11 Jun2014

used: Teric PE 68 (non-ionic surfactant)
Total	6343.6

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1%aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 6ml oil&cream @bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, solidify	Failed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING, BECAUSE EMULSION CHARACTERISTICS AND COLD STAB FAILED

11/06/14,jb20952 cap specification.docx,101

- 101 2014203147 11 Jun2014

Trial # F5

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Ratio of N60E: Teric PE64: Teric PE68 (40:45:15)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Teric PE64: Teric PE68: no solvents

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4972.1	897
Solvent used: Diethylene Glycol Monoethyl Ether	0.0	0
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	551.4	110
Block co-polymer used: Teric PE 64 (non-ionic surfactant	618.6	123
Block co-polymer used: Teric PE 68 (non-ionic surfactant)	205.7	41
Total	6347.9

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 5ml cream&oil @bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a

11/06/14,jb20952 cap specification.docx,102

- 1022014203147 11 Jun2014

Trial # F6

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4973.6	898
Solvent used: Diethylene Glycol Monoethyl Ether	0.0	0
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	410.7	82
Block co-polymer used: Teric PE 64 (non-ionic surfactant	781.4	156
Block co-polymer used: Teric PE 68 (non-ionic surfactant)	177.9	35

11/06/14,jb20952 cap specification.docx,103

2014203147 11 Jun2014

- 103 Total

6343.6

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 4ml cream&oil @bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, solidify	Failed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING, BECAUSE EMULSION CHARACTERISTICS AND COLD STAB FAILED

11/06/14,jb20952 cap specification.docx,104

- 1042014203147 11 Jun2014

Trial # F7

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Ratio of N60E: Teric PE64: Teric PE68 (20:70:10)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Teric PE64: Teric PE68: no solvent

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4975.0	900
Solvent used: Diethylene Glycol Monoethyl Ether	0.0	0
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	271.4	54
Block co-polymer used: Teric PE 64 (non-ionic surfactant	953.6	191
Block co-polymer used: Teric PE 68 (non-ionic surfactant)	135.0	27
Total	6335.0

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete reemulsion after 24h	milky emulsion, no separation, 3.5ml cream&oil @bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a

11/06/14,jb20952 cap specification.docx,105

- 1052014203147 11 Jun2014

Trial # F8

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Ratio of N60E: Teric PE64: Teric PE68 (10:83:7)

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4973.6	898
Solvent used: Diethylene Glycol Monoethyl Ether	0.0	0
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	139.3	28
Block co-polymer used: Teric PE 64 (non-ionic surfactant	1135.7	227
Block co-polymer used: Teric PE 68 (non-ionic surfactant)	94.3	19
Total	6342.9

11/06/14,jb20952 cap specification.docx,106

- 1062014203147 11 Jun2014

11/06/14,jb20952 cap specification.docx,107

- 1072014203147 11 Jun2014

APPENDIX 5

Trial # F1

HALOXYFOP 900 TRIALS

Haloxyfop active present at 950g/L

Trial details: Trial using Termul 203 as non-ionic surfactants against Ninate 60E

Ratio of N60E: Termul 203 (30:70)

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	5249.4	950
Solvent used: Diethylene Glycol Monoethyl Ether	701.9	140
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	132.5	26
Block Co-polymer used: Termul 203 (non-ionic surfactant)	307.1	61
Total	6390.9

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	950g/L	Passed
pH at 1%aq. Solution	6 to 8	7.42	Passed
Specific gravity (temperature at 20C)	1.25 to 1.27	1.278	Above the required result

11/06/14,jb20952 cap specification.docx,108

2014203147 11 Jun2014

- 108 -

Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, no cream@bottom	Passed
Persistent Foaming	<60mL after 1 min	12ml in 1min	Passed
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs	4350cps	Failed
Viscosity (temperature at 20C)	0 to 2000cPs	477cps	Passed
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	FAILED THE VISCOSITY TEST @ 5°C

Trial # F2

HALOXYFOP 900 TRIALS

Haloxyfop active present at 10OOg/L

Ratio of N60E: Termul 203 (30:70)

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate	5525.2	1000
eg. Haloxyfop Tech (94% purity)
Solvent used: Diethylene Glycol Monoethyl Ether	508.2	102
Calcium C10-16 alkyl benzenesulfonic acid	131.1	26

11/06/14,jb20952 cap specification.docx,109

- 1092014203147 11 Jun2014

in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)
Block Co-polymer used: Termul 203 (non-ionic surfactant)	305.5	61
Total	6470.0

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	1000g/L	Passed
pH at 1 % aq. Solution	6 to 8	7.43	Passed
Specific gravity (temperature at 20C)	1.25 to 1.27	1.294	Above the required result
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 0.1ml cream@bottom	Passed
Persistent Foaming	<60mL after 1 min	12ml in 1min	Passed
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs	10100cps	Failed
Viscosity (temperature at 20C)	0 to 2000cPs	912cps	Passed
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	FAILED THE VISCOSITY TEST @ 5°C

11/06/14,jb20952 cap specification.docx,110

- 110 2014203147 11 Jun2014

Trial # F3

HALOXYFOP 900 TRIALS

Haloxyfop active present at 1050g/L

Ratio of N60E: Termul 203 (30:70)

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	5801.5	1050
Solvent used: Diethylene Glycol Monoethyl Ether	295.8	59
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	131.1	26
Block Co-polymer used: Termul 203 (non-ionic surfactant)	306.7	61
Total	6535.1

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	1050g/L	Passed
pH at 1 % aq. Solution	6 to 8	7.66	Passed
Specific gravity (temperature at 20C)	1.25 to 1.27	1.307	Above the required result
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 0.1ml cream@bottom	Passed
Persistent Foaming	<60mL after 1 min	4ml in 1min	Passed

l/06/14,jb20952 cap specification.docx,ll 1

2014203147 11 Jun2014

- Ill -

Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs	25000cps	Failed
Viscosity (temperature at 20C)	0 to 2000cPs	1840cps	Passed
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	FAILED THE VISCOSITY TEST @ 5°C

11/06/14,jb20952 cap specification.docx,112

- 1122014203147 11 Jun2014

APPENDIX 6

Trial # H1

HALOXYFOP 900 TRIALS

Haloxyfop active present at 950g/L

Ratio of N60E: Termul 203 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Termul 203: PGME

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	5249.9	950
Solvent used: Propylene Glycol Monomethyl Ether	631.5	126
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	131.3	26
Block Co-polymer used: Termul 203 (non-ionic surfactant)	306.2	61
Total	6318.8

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	Red to brown liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	950g/L	Passed
pH at 1 % aq. Solution	6 to 8	7.24	Passed
Specific gravity (temperature at 20C)	1.25 to 1.27	1.264	Passed

11/06/14,jb20952 cap specification.docx,113

- 113 2014203147 11 Jun2014

Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	Milky emulsion, no separation, 0.2ml cream@bottom	Passed
Persistent Foaming	<60mL after 1 min	2ml in 1min	Passed
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs	1850cps	Passed
Viscosity (temperature at 20C)	0 to 2000cPs	350cps	Passed
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.
General Remarks PASS or FAIL?	PASS
Description:	SOLUTION MEETS ALL CRITERIA

Trial # H2

HALOXYFOP 900 TRIALS

Haloxyfop active present at 10OOg/L

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Termul 203: PGME

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate	5526.7	1000
eg. Haloxyfop Tech (94% purity)
Solvent used: Propylene Glycol Monomethyl Ether	439.1	88
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol	131.9	26
used: Ninate 60E (anionic surfactant)

11/06/14,jb20952 cap specification.docx,114

- 1142014203147 11 Jun2014


Block Co-polymer used: Termul 203 (non-ionic surfactant)	306.8	61
Total	6404.3

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	Red to brown liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	1000g/L	Passed
pH at 1 % aq. Solution	6 to 8	7.56	Passed
Specific gravity (temperature at 20C)	1.25 to 1.27	1.281	Above Specs
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	Milky emulsion, no separation, 0.5ml cream@bottom	Passed
Persistent Foaming	<60mL after 1 min	2ml in 1min	Passed
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs	7100cps	Failed
Viscosity (temperature at 20C)	0 to 2000cPs	635cps	Passed
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.
General Remarks PASS or FAIL?	PASS
Description:	VISCOSITY AT 5°C FAILED THE TRIAL

11/06/14,jb20952 cap specification.docx,! 15

- 115 2014203147 11 Jun2014

Trial # H3

HALOXYFOP 900 TRIALS

Haloxyfop active present at 1050g/L

Ratio of N60E: Termul 203 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Termul 203: PGME

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	5806.6	1051
Solvent used: Propylene Glycol Monomethyl Ether	252.8	51
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	131.4	26
Block Co-polymer used: Termul 203 (non-ionic surfactant)	307.5	62
Total	6498.2

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	Red to brown liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	1051 g/L	Passed
pH at 1 % aq. Solution	6 to 8	7.63	Passed
Specific gravity (temperature at 20C)	1.25 to 1.27	1.300	Above Specs
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	Milky emulsion, no separation, 1.0ml cream@bottom	Passed
Persistent Foaming	<60mL after 1 min	2ml in 1min	Passed

11/06/14,jb20952 cap specification.docx,116

- 1162014203147 11 Jun2014

Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs	57000cps	Failed
Viscosity (temperature at 20C)	0 to 2000cPs	1660cps	Passed
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.
General Remarks PASS or FAIL?	PASS
Description:	VISCOSITY AT 5OC FAILED THE TRIAL

11/06/14,jb20952 cap specification.docx,117

- 117 2014203147 11 Jun2014

APPENDIX 7

Trial # IA9

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Ratio of N60E: Termul 203 (30:70)

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4978.3	899
Solvent used: Diethylene Glycol Monoethyl Ether	917.5	183
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	136.7	27
Block Co-polymer used: Termul 203 (non-ionic surfactant)	313.3	63
Total	6345.8

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	899g/L	Passed
pH at 1 % aq. Solution	6 to 8	7.35	Passed
Specific gravity (temperature at 20C)	1.25 to 1.27	1.266	Passed
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 0.3ml cream@bottom	Passed

11/06/14,jb20952 cap specification.docx,118

- 118 2014203147 11 Jun2014

Persistent Foaming	<60mL after 1 min	25ml	Passed
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs	1212cps	Passed
Viscosity (temperature at 20C)	0 to 2000cPs	315cps	Passed
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	PASS
Description:	SOLUTION MEETS ALL CRITERIA

Trial # IB9

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Rhodacal 60/BE-C as anionic surfactants against Termul 203 Ratio of Rhodacal 60/BE-C : Termul 203 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Rhodacal 60/BE-C: Termul 203: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4972.5	898
Solvent used: Diethylene Glycol Monoethyl Ether	938.3	187
Calcium Dodecylbenzene Sulphonate in 2ethylhexanol used: Rhodacal 60/BE-C (anionic surfactant)	133.3	27

11/06/14,jb20952 cap specification.docx,119

- 1192014203147 11 Jun2014

Block Co-polymer used: Termul 203 (non-ionic surfactant)	302.5	60
Total	6346.7

RESULTS OF FORMULATION
Parameter	Method	Required	Results	Remarks
Appearance	Visual	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	Validated chromatographic method (Accuracy: 98-102%) (Linearity: R > 0.99) (Precision: s/average < 2%)	875 to 925g/L Haloxyfop	898g/L	Passed
pH at 1 % aq. Solution	MT 75.3	6 to 8		n/a
Specific gravity (temperature at 20C)	CIPAC MT 3.1	1.25 to 1.27		n/a
Emulsion characteristics	CIPAC MT 36.1	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, traces of cream@bottom	Passed
Persistent Foaming	CIPAC MT 47.2	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	MT75.3	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	MT 192	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	MT 192	0 to 2000cPs		n/a
Long Term Performance	Various as per above	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	PASS
Description:	AWAITS FURTHER ANALYSIS

11/06/14,jb20952 cap specification.docx,120

- 1202014203147 11 Jun2014

Trial # IC9

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Kemmat HF60 as anionic surfactants against Termul 203

Ratio of Kemmat HF60 : Termul 203 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Kemmat HF60: Termul 203: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4976.7	896
Solvent used: Diethylene Glycol Monoethyl Ether	938.3	187
Calcium Dodecylbenzene Sulphonate in 2ethylhexanol used: Kemmat HF60 (anionic surfactant)	138.3	28
Block Co-polymer used: Termul 203 (non-ionic surfactant)	306.7	61
Total	6360.0

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	896g/L	Passed
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, traces of cream@bottom	Passed
Persistent Foaming	<60mL after 1 min		n/a

11/06/14,jb20952 cap specification.docx,121

2014203147 11 Jun2014

- 121 -

Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	PASS
Description:	AWAITS FURTHER ANALYSIS

Trial # ID9

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Nansa EVM 70/2E as anionic surfactants against Termul 203

Ratio of Nansa EVM 70/2E: Termul 203 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Nansa EVM 70/2E: Termul 203: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4971.7	899
Solvent used: Diethylene Glycol Monoethyl Ether	920.0	184
Calcium Dodecylbenzene Sulphonate in butanol used: Nansa EVM 70/2E (anionic surfactant)	135.0	27
Block Co-polymer	309.2	62

11/06/14,jb20952 cap specification.docx,122

- 1222014203147 11 Jun2014

used: Termul 203 (non-ionic surfactant)
Total	6335.8

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	899g/L	Passed
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete reemulsion after 24h	milky emulsion, no separation, traces of cream@bottom	Passed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	PASS
Description:	AWAITS FURTHER ANALYSIS

11/06/14,jb20952 cap specification.docx,123

2014203147 11 Jun2014

- 123 Trial # IE9

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Rhodacal 70 as anionic surfactants against Termul 203

Ratio of Rhodacal 70: Termul 203 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Rhodacal 70: Termul 203: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4980.8	896
Solvent used: Diethylene Glycol Monoethyl Ether	939.2	187
Calcium Dodecylbenzene Sulphonate in butanol used: Rhodacal 70 (anionic surfactant)	139.2	28
Block Co-polymer used: Termul 203 (non-ionic surfactant)	310.0	62
Total	6369.2

11/06/14,jb20952 cap specification.docx,124

- 1242014203147 11 Jun2014

Trial # IF9

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Rhodacal 70B as anionic surfactants against Termul 203

Ratio of Rhodacal 70B: Termul 203 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Rhodacal 70B: Termul 203: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4981.7	897
Solvent used: Diethylene Glycol Monoethyl Ether	933.3	186
Calcium Dodecylbenzene Sulphonate in butanol used: Rhodacal 70B (anionic surfactant)	132.5	26
Block Co-polymer	311.7	62

11/06/14,jb20952 cap specification.docx,125

- 1252014203147 11 Jun2014

used: Termul 203 (non-ionic surfactant)
Total	6359.2

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	897g/L	Passed
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, traces of cream@bottom	Passed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	PASS
Description:	AWAITS FURTHER ANALYSIS

Trial # IG9

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Toximul TANS 5 as ionic surfactants against Termul 203 Ratio of Toximul TANS 5: Termul 203 (30:70) lonic/Non-ionic surfactant/ Solvent used: Toximul TANS 5: Termul 203: Diethylene Glycol monoethyl ether

11/06/14,jb20952 cap specification.docx,126

- 1262014203147 11 Jun2014

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4968.3	897
Solvent used: Diethylene Glycol Monoethyl Ether	933.3	186
Alkylphenol ether sulfate/tallow amines ethoxylated used: Toximul TANS 5 (anionic surfactant)	135.0	27
Block Co-polymer used: Termul 203 (non-ionic surfactant)	305.8	61
Total	6342.5

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	897g/L	Passed
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 1ml cream@bottom	Passed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a

11/06/14,jb20952 cap specification.docx,127

- 1272014203147 11 Jun2014

General Remarks PASS or FAIL?	PASS
Description:	AWAITS FURTHER ANALYSIS

Trial # IH9

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Toximul TANS 6 as ionic surfactants against Termul 203 Ratio of Toximul TANS 6: Termul 203 (30:70) lonic/Non-ionic surfactant/ Solvent used: Toximul TANS 6: Termul 203: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4965.0	896
Solvent used: Diethylene Glycol Monoethyl Ether	930.0	185
Alkylphenol ether sulfate/tallow amines ethoxylated used: Toximul TANS 6 (anionic surfactant)	145.0	29
Block Co-polymer used: Termul 203 (non-ionic surfactant)	310.0	62
Total	6350.0

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	896g/L	Passed
pH at 1 % aq. Solution	6 to 8		n/a

11/06/14,jb20952 cap specification.docx,128

- 1282014203147 11 Jun2014

Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 0.9ml cream@bottom	Passed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	PASS
Description:	AWAITS FURTHER ANALYSIS

Trial # 119

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Toximul TANS 8 as ionic surfactants against Termul 203

Ratio of Toximul TANS 8: Termul 203 (30:70) lonic/Non-ionic surfactant/ Solvent used: Toximul TANS 8: Termul 203: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate	4980.0	901
eg. Haloxyfop Tech (94% purity)
Solvent used: Diethylene Glycol Monoethyl Ether	916.7	183

11/06/14,jb20952 cap specification.docx,129

- 1292014203147 11 Jun2014

Alkylphenol ether sulfate/tallow amines ethoxylated used: Toximul TANS 8 (anionic surfactant)	130.8	26
Block Co-polymer used: Termul 203 (non-ionic surfactant)	303.3	61
Total	6330.8

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	901 g/L	Passed
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, traces of cream@bottom	Passed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	PASS
Description:	AWAITS FURTHER ANALYSIS

11/06/14,jb20952 cap specification.docx,130

- 130 2014203147 11 Jun2014

Trial # IJ9

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Toximul TAABS 5 as ionic surfactants against Termul 203

Ratio of Toximul TAABS 5: Termul 203 (30:70) lonic/Non-ionic surfactant/ Solvent used: Toximul TAABS 5: Termul 203: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4970.0	897
Solvent used: Diethylene Glycol Monoethyl Ether	940.0	187
branched alcohol ether sulfate/tallow amines ethoxylated used: Toximul TAABS 5 (anionic surfactant)	130.0	26
Block Co-polymer used: Termul 203 (non-ionic surfactant)	309.2	62
Total	6349.2

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	897g/L	Passed
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, traces of cream@bottom	Passed
Persistent Foaming	<60mL after 1 min		n/a

11/06/14,jb20952 cap specification.docx,131

- 131 2014203147 11 Jun2014

Trial # IK9

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Trial using Toximul TAABS 8 as ionic surfactants against Termul 203 Ratio of Toximul TAABS 8: Termul 203 (30:70) lonic/Non-ionic surfactant/ Solvent used: Toximul TAABS 8: Termul 203: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4970.0	899
Solvent used: Diethylene Glycol Monoethyl Ether	933.3	186
branched alcohol ether sulfate/tallow amines ethoxylated used: Toximul TAABS 8 (anionic surfactant)	129.2	26

12/12/17,3472646__l.docx.132

- 132 2014203147 29 Jan 2018

Block Co-polymer used: Termul 203 (non-ionic surfactant)	303.3	61
Total	6335.8

RESULTS OF FORMULAT	ON
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1% aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 2ml cream@bottom	Passed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	PASS
Description:	SOLUTION MEETS ALL CRITERIA

3472646vl

11/06/14,jb20952 cap specification.docx,133

- 133 2014203147 11 Jun2014

APPENDIX 8

Trial # IA9

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Ratio of N60E: Termul 203 (30:70)

FORMULATION

11/06/14,jb20952 cap specification.docx,134

- 134 2014203147 11 Jun2014

Trial # IIA9

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Termul 203: Recosol 150

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4977.5	900
Solvent used: Recosol 150	923.3	184
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	129.2	26

11/06/14,jb20952 cap specification.docx,135

2014203147 11 Jun2014

- 135-

Block Co-polymer used: Termul 203 (non-ionic surfactant)	305.8	61
Total	6335.8

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1%aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 5ml cream&oil@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING BECAUSE EMULSION CHARACTERISTICS FAILED

11/06/14,jb20952 cap specification.docx,136

- 136 2014203147 11 Jun2014

Trial # III A9

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Ratio of N60E: Termul 203 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Termul 203: Recosol 200

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4970.0	899
Solvent used: Recosol 200	926.7	185
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	129.2	26
Block Co-polymer used: Termul 203 (non-ionic surfactant)	304.2	61
Total	6330.0

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 4ml cream&oil@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a

11/06/14,jb20952 cap specification.docx,137

- 137 2014203147 11 Jun2014

Viscosity (temperature at 5C)	0 to 2000cPs	n/a
Viscosity (temperature at 20C)	0 to 2000cPs	n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.	n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING BECAUSE EMULSION CHARACTERISTICS FAILED

Trial # IVA9

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Ratio of N60E: Termul 203 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Termul 203: Xylene

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4973.3	900
Solvent used: Xylene	926.7	185
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	127.5	25
Block Co-polymer used: Termul 203 (non-ionic surfactant)	305.0	61
Total	6332.5

11/06/14,jb20952 cap specification.docx,138

- 138 2014203147 11 Jun2014

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 5ml cream&oil@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING BECAUSE EMULSION CHARACTERISTICS FAILED

Trial #VA9

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Termul 203: Toluene

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate	4978.3	901
eg. Haloxyfop Tech (94% purity)

11/06/14,jb20952 cap specification.docx,139

- 1392014203147 11 Jun2014

Solvent used: Toluene	922.5	184
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol	128.3	26
used: Ninate 60E (anionic surfactant)
Block Co-polymer used: Termul 203 (non-ionic surfactant)	304.2	61
Total	6333.3

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 5ml cream&oil@botto m	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a

11/06/14,jb20952 cap specification.docx,140

- 1402014203147 11 Jun2014

General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING BECAUSE EMULSION CHARACTERISTICS FAILED

Trial # VIA9

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Ratio of N60E: Termul 203 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Termul 203: Acetone

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4974.2	900
Solvent used: Acetone	925.0	185
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	130.8	26
Block Co-polymer used: Termul 203 (non-ionic surfactant)	304.2	61
Total	6334.2

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1%aq. Solution	6 to 8		n/a

11/06/14,jb20952 cap specification.docx,141

- 141 2014203147 11 Jun2014

Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete reemulsion after 24h	milky emulsion, no separation, 3ml cream&oil@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING BECAUSE EMULSION CHARACTERISTICS FAILED

Trial # VIIA9

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Termul 203: Dimethyl adipate

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate	4975.0	900
eg. Haloxyfop Tech (94% purity)
Solvent used: Dimethyl adipate	924.2	185

11/06/14,jb20952 cap specification.docx,142

- 1422014203147 11 Jun2014

Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	127.5	25
Block Co-polymer used: Termul 203 (non-ionic surfactant)	308.3	62
Total	6335.0

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1%aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete reemulsion after 24h	milky emulsion, no separation, 3ml cream&oil@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, formed lumps	Failed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING BECAUSE EMULSION CHARACTERISTICS AND COLD STAB FAILED

11/06/14,jb20952 cap specification.docx,143

- 143 2014203147 11 Jun2014

Trial # VIIIA9

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Ratio of N60E: Termul 203 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Termul 203: Dimethyl succinate

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4976.7	899
Solvent used: Dimethyl succinate	935.0	187
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	128.3	26
Block Co-polymer used: Termul 203 (non-ionic surfactant)	305.0	61
Total	6345.0

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 3ml cream&oil@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a

11/06/14,jb20952 cap specification.docx,144

- 1442014203147 11 Jun2014

Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, formed lumps	Failed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING BECAUSE EMULSION CHARACTERISTICS AND COLD STAB FAILED

Trial # IXA9

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Ratio of N60E: Termul 203 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Termul 203: NMP

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4971.7	898
Solvent used: NMP	927.5	185
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	131.7	26
Block Co-polymer	310.0	62

11/06/14,jb20952 cap specification.docx,145

- 145 2014203147 11 Jun2014

used: Termul 203 (non-ionic surfactant)
Total	6340.8

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 3ml cream&oil@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, formed lumps	Failed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING BECAUSE EMULSION CHARACTERISTICS AND COLD STAB FAILED

Trial #XA9

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Ratio of N60E: Termul 203 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Termul 203: Ethylene glycol monobutyl ether

12/12/17.3472646_ 1 .docx, 146

-146 2014203147 29 Jan 2018

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifIuoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4971.7	899
Solvent used: Ethylene glycol monobutyl ether	923.3	184
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	130.0	26
Block Co-polymer used: Termul 203 (non-ionic surfactant)	313.3	63
Total	6338.3

RESULTS OF FORMULAT	ON
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1% aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete reemulsion after 24h	milky emulsion, no separation, 2ml cream&oil@bottom	Passed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a

3472646v1

12/12/ 17.3472646J .docx, 147

- 147 2014203147 29 Jan 2018

Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.	n/a
General Remarks PASS or FAIL?	PASS
Description:	SOLUTION MEETS ALL CRITERIA

Trial #XIA9

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Termul 203: propylene glycol monomethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4973.3	900
Solvent used: propylene glycol monomethyl ether	922.5	184
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	131.7	26
Block Co-polymer used: Termul 203 (non-ionic surfactant)	305.0	61
Total	6332.5

RESULTS OF FORMULATION

3472646vl

11/06/14,jb20952 cap specification.docx,148

- 148 2014203147 11 Jun2014

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	900g/L	n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 0.2ml cream&oil@bottom	Passed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	PASSED
Description:	AWAITS FURTHER ANALYSIS

Trial # XIIA9

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Ratio of N60E: Termul 203 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Termul 203: propylene glycol

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2-	4970.8	900

11/06/14,jb20952 cap specification.docx,149

2014203147 11 Jun2014

- 149-

pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)
Solvent used: propylene glycol	920.0	184
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	132.5	27
Block Co-polymer used: Termul 203 (non-ionic surfactant)	306.7	61
Total	6330.0

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h		n/a
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Yellow to brown solid	Failed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a

11/06/14,jb20952 cap specification.docx,150

2014203147 11 Jun2014

- 150-

General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING BECAUSE COLD STAB FAILED

Trial # XIIIA9

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Termul 203: diethylene glycol

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4970.0	900
Solvent used: diethylene glycol	920.8	184
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	130.0	26
Block Co-polymer used: Termul 203 (non-ionic surfactant)	305.0	61
Total	6325.8

11/06/14,jb20952 cap specification.docx,151

2014203147 11 Jun2014

- 151 -

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1%aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h		n/a
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Yellow to brown solid	Failed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING BECAUSE COLD STAB FAILED

Trial #XIVA9

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Ratio of N60E: Termul 203 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Termul 203: dipropylene glycol

11/06/14,jb20952 cap specification.docx,152

2014203147 11 Jun2014

- 152FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4972.5	900
Solvent used: dipropylene glycol	920.8	184
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	132.5	26
Block Co-polymer used: Termul 203 (non-ionic surfactant)	305.0	61
Total	6330.8

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	Milky white emulsion, no separation, 5ml cream&oil@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, phase separation@top	Failed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a

11/06/14,jb20952 cap specification.docx,153

2014203147 11 Jun2014

	- 153 -
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING BECAUSE EMULSION CHARACTERISTIC FAILED

11/06/14,jb20952 cap specification.docx,154

- 154 2014203147 11 Jun2014

APPENDIX 9

Trial # J1

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Decrease in surfactant loading to 80% from the original formulation with constant surfactant ratio

Ratio of N60E: Termul 203 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E : Termul 203 : Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L	HLB
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4972.8	901
Solvent used: Diethylene Glycol Monoethyl Ether	978.9	196
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	105.1	21	3.31
Block Co-polymer used: Termul 203 (non-ionic surfactant)	244.4	49	12.24
Total	6301.2		15.55

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	901 g/L	Passed
pH at 1%aq. Solution	6 to 8	6.92	Passed
Specific gravity (temperature at 20C)	1.25 to 1.27	1.261	Passed

11/06/14,jb20952 cap specification.docx,155

- 155 2014203147 11 Jun2014

Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, traces of cream@ bottom of cylinder	Passed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	PASS
Description:	AWAITS FURTHER ANALYSIS

Trial # J2

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Decrease in surfactant loading to 60% from the original formulation with constant surfactant ratio

Ratio of N60E: Termul 203 (30:70)

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L	HLB
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4972.6	900
Solvent used: Diethylene Glycol Monoethyl Ether	1063.1	213
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol	78.8	16	3.30

12/12/17,3472646_l.docx.156

- 156 2014203147 29 Jan 2018

used: Ninate 60E (anionic surfactant)
Block Co-polymer used: Termul 203 (non-ionic surfactant)	183.6	37	12.24
. Total	6298.1		15.55

RESULTS OF FORMULAT	ON
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	900g/L	Passed
pH at 1% aq. Solution	6 to 8	7.09	Passed
Specific gravity (temperature at 20C)	1.25 to 1.27	1.259	Passed
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, 1mi mixture of cream & oil @ bottom of cylinder	Passed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	PASS
Description:	SOLUTION MEETS ALL CRITERIA

3472646v 1

11/06/14,jb20952 cap specification.docx,157

- 157 2014203147 11 Jun2014

Trial # J3

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Decrease in surfactant loading to 40% from the original formulation with constant surfactant ratio

Ratio of N60E: Termul 203 (30:70)

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L	HLB
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4973.5	900
Solvent used: Diethylene Glycol Monoethyl Ether	1157.3	231
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	52.1	10	3.29
Block Co-polymer used: Termul 203 (non-ionic surfactant)	122.2	24	12.27
Total	6305.1		15.56

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	900g/L	Passed
pH at 1 % aq. Solution	6 to 8	7.26	Passed
Specific gravity (temperature at 20C)	1.25 to 1.27	1.261	n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 5ml mixture of cream&oil@bottom	Failed

11/06/14,jb20952 cap specification.docx,158

- 158 2014203147 11 Jun2014

Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER ANALYSIS BECAUSE EMULSION CHARACTERISTICS FAIL

Trial # J3

HALOXYFOP 900 TRIALS

Haloxyfop active present at 900g/L

Trial details: Decrease in surfactant loading to 20% from the original formulation with constant surfactant ratio

Ratio of N60E: Termul 203 (30:70)

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L	HLB
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4972.5	900
Solvent used: Diethylene Glycol Monoethyl Ether	1236.1	247
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	26	5	3.26
	61.8	12	12.32

11/06/14,jb20952 cap specification.docx,159

2014203147 11 Jun2014

- 159-

Block Co-polymer used: Termul 203 (non-ionic surfactant)
Total	6296.4		15.58

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	900g/L	Passed
pH at 1 % aq. Solution	6 to 8	7.32	Passed
Specific gravity (temperature at 20C)	1.25 to 1.27	1.259	n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 4.5ml mixture of cream&oil@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER ANALYSIS BECAUSE EMULSION CHARACTERISTICS FAIL

11/06/14,jb20952 cap specification.docx,160

2014203147 11 Jun2014

- 160APPENDIX 10

Trial# 4a

HALOXYFOP 900 TRIAL

Haloxyfop active present at 900g/L

Trial details: Trial using Toximul 8320 as non-ionic surfactants against Ninate 60E

Ratio of N60E: Toximul 8320 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Toximul 8320: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4973.3	900
Solvent used: Diethylene Glycol Monoethyl Ether	920.8	184
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	143.3	29
Block Co-polymer used: Toximul 8320 (non-ionic surfactant)	310.0	62
Total	6347.5

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	900g/L	Passed
pH at 1 % aq. Solution	6 to 8	7.60	Passed
Specific gravity (temperature at 20C)	1.25 to 1.27	1.266	Passed
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 0.5ml cream@bottom	Passed

11/06/14,jb20952 cap specification.docx,161

- 161 2014203147 11 Jun2014

Persistent Foaming	<60mL after 1 min	6.0 mis	Passed
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format.	Passed
Viscosity (temperature at 5C)	0 to 2000cPs	1520 cps (LV3 @60rpm)	Passed
Viscosity (temperature at 20C)	0 to 2000cPs	345 cps (LV2 @60rpm)	Passed
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.	N/A	n/a
General Remarks PASS or FAIL?	PASS
Description:	SOLUTION MEETS ALL CRITERIA

Trial # 4b

HALOXYFOP 900 TRIAL

Haloxyfop active present at 900g/L

Ratio of N60E: Teric N20 (30:70)

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4978.9	901
Solvent used: Diethylene Glycol Monoethyl Ether	929.4	186
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	150.6	30

12/12/17.3472646J .docx, 162

- 1622014203147 29 Jan 2018

Nonyl Phenol Ethoxylates used: Teric N20 (non-ionic surfactant)	309.4	62
Total	6368.3

RESULTS OF FORMULAT	ON
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1% aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 2.0ml cream&oil@bottom	Passed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	PASS
Description:	SOLUTION MEETS ALL CRITERIA

3472646v 1

11/06/14,jb20952 cap specification.docx,163

- 163 2014203147 11 Jun2014

Trial# 4c

HALOXYFOP 900 TRIAL

Haloxyfop active present at 900g/L

Trial details: Trial using Teric N30 as non-ionic surfactants against Ninate 60E

Ratio of N60E: Teric N30 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Teric N30: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	5000.3	905
Solvent used: Diethylene Glycol Monoethyl Ether	920.6	184
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	145.0	29
Nonyl Phenol Ethoxylates used: Teric N30 (non-ionic surfactant)	310.6	62
Total	6376.4

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 3ml cream&oil@bottom	Failed

11/06/14,jb20952 cap specification.docx,164

- 164 2014203147 11 Jun2014

Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING BECAUSE EMULSION CHARACTERISTICS FAILED

Trial # 4d

HALOXYFOP 900 TRIAL

Haloxyfop active present at 900g/L

Ratio of N60E: Teric N13 (30:70)

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4970.1	899
Solvent used: Diethylene Glycol Monoethyl Ether	931.1	186
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	149.6	30

12/12/17,3472646_ 1 .docx, 165

- 1652014203147 29 Jan 2018

Nonyl Phenol Ethoxylates used: Teric N13 (non-ionic surfactant)	312.1	62
Total	6362.8

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1% aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 2ml cream&oil@bottom	Passed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	PASS
Description:	SOLUTION MEETS ALL CRITERIA

3472646v1

11/06/14,jb20952 cap specification.docx,166

- 166 2014203147 11 Jun2014

Trial #4e

HALOXYFOP 900 TRIAL

Haloxyfop active present at 900g/L

Trial details: Trial using Teric N15 as non-ionic surfactants against Ninate 60E

Ratio of N60E: Teric N15 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Teric N15: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4981.7	902
Solvent used: Diethylene Glycol Monoethyl Ether	920.6	184
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	151.7	30
Nonyl Phenol Ethoxylates used: Teric N15 (non-ionic surfactant)	324.8	65
Total	6378.7

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete reemulsion after 24h	milky emulsion, no separation, 3ml cream&oil@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a

11/06/14,jb20952 cap specification.docx,167

- 1672014203147 11 Jun2014

Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING BECAUSE EMULSION CHARACTERISTICS FAILED

Trial # 4f

HALOXYFOP 900 TRIAL

Haloxyfop active present at 900g/L

Trial details: Trial using Teric N9 as non-ionic surfactants against Ninate 60E

Ratio of N60E: Teric N9 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Ninate 60E: Teric N9: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4980.0	901
Solvent used: Diethylene Glycol Monoethyl Ether	938.3	188
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	151.4	30
Nonyl Phenol Ethoxylates	330.4	66

11/06/14,jb20952 cap specification.docx,168

- 1682014203147 11 Jun2014

used: Teric N9 (non-ionic surfactant)
Total	6400.2

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete reemulsion after 24h	milky emulsion, no separation, 1.5ml cream&oil@bottom.	Passed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	PASS
Description:	SOLUTION MEETS ALL CRITERIA

11/06/14,jb20952 cap specification.docx,169

2014203147 11 Jun2014

- 169 Trial #4g

HALOXYFOP 800 TRIAL

Haloxyfop active present at 800g/L

Ratio of N60E: Toximul 8320 (30:70)

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (95% purity)	4433.2	802
Solvent used: Diethylene Glycol Monoethyl Ether	1371.0	274
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	127.0	25
Block Co-polymer used: Toximul 8320 (non-ionic surfactant)	320.0	64
Total	6251.2

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	900g/L	Passed
pH at 1%aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27	1.270	Passed
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete reemulsion after 24h	milky emulsion, no separation, 1.0ml cream@bottom	Passed
Persistent Foaming	<60mL after 1 min		n/a

11/06/14,jb20952 cap specification.docx,170

- 1702014203147 11 Jun2014

Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	PASS
Description:	SOLUTION MEETS ALL CRITERIA

Trial # 4h

HALOXYFOP 800 TRIAL

Haloxyfop active present at 800g/L

Ratio of N60E: Teric N30 (30:70)

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2- pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4420.0	800
Solvent used: Diethylene Glycol Monoethyl Ether	1419.0	284
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	127.5	26
Nonyl Phenol Ethoxylates used: Teric N30 (non-ionic surfactant)	303.0	61
Total	6269.5

11/06/14,jb20952 cap specification.docx,171

2014203147 11 Jun2014

- 171 -

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1%aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete reemulsion after 24h	milky emulsion, no separation, 4ml cream&oil@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING BECAUSE EMULSION CHARACTERISTICS FAILED

Trial # 4i

HALOXYFOP 800 TRIAL

Haloxyfop active present at 800g/L

Ratio of N60E: Teric N20 (30:70)

11/06/14,jb20952 cap specification.docx,172

- 1722014203147 11 Jun2014

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4432.0	802
Solvent used: Diethylene Glycol Monoethyl Ether	1313.0	263
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	126.0	25
Nonyl Phenol Ethoxylates used: Teric N20 (non-ionic surfactant)	304.4	61
Total	6175.4

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 4.0ml cream&oil@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a

11/06/14,jb20952 cap specification.docx,173

2014203147 11 Jun2014

- 173 -

Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.	n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING BECAUSE EMULSION CHARACTERISTICS FAILED

Trial # 4j

HALOXYFOP 800 TRIAL

Haloxyfop active present at 800g/L

Ratio of N60E: Teric N15 (30:70)

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4448.0	805
Solvent used: Diethylene Glycol Monoethyl Ether	1322.0	264
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	128.5	26
Nonyl Phenol Ethoxylates used: Teric N15 (non-ionic surfactant)	301.0	60
Total	6199.5

11/06/14,jb20952 cap specification.docx,174

- 1742014203147 11 Jun2014

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1%aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 4ml cream&oil@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING BECAUSE EMULSION CHARACTERISTICS FAILED

Trial # 4k

HALOXYFOP 800 TRIAL

Haloxyfop active present at 800g/L

Ratio of N60E: Teric N13 (30:70)

11/06/14,jb20952 cap specification.docx,175

- 175 2014203147 11 Jun2014

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4448.0	805
Solvent used: Diethylene Glycol Monoethyl Ether	1322.0	264
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	128.5	26
Nonyl Phenol Ethoxylates used: Teric N13 (non-ionic surfactant)	301.2	60
Total	6199.7

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 4ml cream&oil@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a

11/06/14,jb20952 cap specification.docx,176

- 1762014203147 11 Jun2014

Trial # 41

HALOXYFOP 800 TRIAL

Haloxyfop active present at 800g/L

Trial details: Trial using Teric N9 as non-ionic surfactants against Ninate 60E

Ratio of N60E: Teric N9 (30:70)

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4429.0	802
Solvent used: Diethylene Glycol Monoethyl Ether	1329.5	266
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	139.0	28
Nonyl Phenol Ethoxylates used: Teric N9 (non-ionic surfactant)	303.7	61
Total	6201.2

11/06/14,jb20952 cap specification.docx,177

- 177 2014203147 11 Jun2014

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1%aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 2ml cream & trace of oil @ bottom	Pass
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Pass
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	PASS
Description:	SOLUTION MEETS ALL CRITERIA

Trial# 4m

HALOXYFOP 700 TRIAL

Haloxyfop active present at 700g/L

Ratio of N60E: Toximul 8320 (30:70)

11/06/14,jb20952 cap specification.docx,178

- 178 2014203147 11 Jun2014

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	3882.5	703
Solvent used: Diethylene Glycol Monoethyl Ether	1689.5	338
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	139.5	28
Block Co-polymer used: Toximul 8320 (non-ionic surfactant)	322.5	65
Total	6034.0

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	900g/L	Passed
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 0.3ml cream@bottom	Passed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a

11/06/14,jb20952 cap specification.docx,179

2014203147 11 Jun2014

- 179-

General Remarks PASS or FAIL?	PASS
Description:	SOLUTION MEETS ALL CRITERIA

Trial # 4n

HALOXYFOP 700 TRIAL

Haloxyfop active present at 700g/L

Ratio of N60E: Teric N30 (30:70)

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	3873.0	701
Solvent used: Diethylene Glycol Monoethyl Ether	1679.0	336
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	142.0	28
Nonyl Phenol Ethoxylates used: Teric N30 (non-ionic surfactant)	317.5	64
Total	6011.5

11/06/14,jb20952 cap specification.docx,180

- 180 2014203147 11 Jun2014

Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, 4ml cream&oil@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING BECAUSE EMULSION CHARACTERISTICS FAILED

Trial #4o

HALOXYFOP 700 TRIAL

Haloxyfop active present at 700g/L

Ratio of N60E: Teric N20 (30:70)

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate	3884.0	703
eg. Haloxyfop Tech (94% purity)
Solvent used: Diethylene Glycol Monoethyl Ether	1677.5	336
	140.5	28

11/06/14,jb20952 cap specification.docx,181

- 181 2014203147 11 Jun2014

Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)
Nonyl Phenol Ethoxylates used: Teric N20 (non-ionic surfactant)	320.0	64
Total	6022.0

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion,, 3.0ml cream&oil@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING BECAUSE EMULSION CHARACTERISTICS FAILED

11/06/14,jb20952 cap specification.docx,182

2014203147 11 Jun2014

- 182Trial # 4p

HALOXYFOP 700 TRIAL

Haloxyfop active present at 700g/L

Ratio of N60E: Teric N15 (30:70)

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	3870.0	700
Solvent used: Diethylene Glycol Monoethyl Ether	1710.0	342
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	140.0	28
Nonyl Phenol Ethoxylates used: Teric N15 (non-ionic surfactant)	321.0	64
Total	6041.0

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion,, 3ml cream&oil@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a

11/06/14,jb20952 cap specification.docx,183

- 183 2014203147 11 Jun2014

Trial #4q

HALOXYFOP 700 TRIAL

Haloxyfop active present at 700g/L

Ratio of N60E: Teric N13 (30:70)

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	3873.0	701
Solvent used: Diethylene Glycol Monoethyl Ether	1673.0	335
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	136.0	27
Nonyl Phenol Ethoxylates	338.0	68

11/06/14,jb20952 cap specification.docx,184

- 184 2014203147 11 Jun2014

used: Teric N13 (non-ionic surfactant)
Total	6020.0

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, 2.5ml cream&oil@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING BECAUSE EMULSION CHARACTERISTICS FAILED

Trial # 4r

HALOXYFOP 700 TRIAL

Haloxyfop active present at 700g/L

Trial details: Trial using Teric N9 as non-ionic surfactants against Ninate 60E

Ratio of N60E: Teric N9 (30:70)

11/06/14,jb20952 cap specification.docx,185

- 185 2014203147 11 Jun2014

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	3877.0	702
Solvent used: Diethylene Glycol Monoethyl Ether	1670.0	334
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	140.0	28
Nonyl Phenol Ethoxylates used: Teric N9 (non-ionic surfactant)	332.5	67
Total	6019.5

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete reemulsion after 24h	milky emulsion, 2.5ml cream&oil@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a

11/06/14,jb20952 cap specification.docx,186

2014203147 11 Jun2014

- 186-

11/06/14,jb20952 cap specification.docx, 187

- 187 2014203147 11 Jun2014

APPENDIX 11

Trial# 4s

HALOXYFOP 900 TRIAL

Haloxyfop active present at 900g/L

Trial details: Trial using Toximul 8320 as non-ionic surfactants against Kemmat HF60

Ratio of Kemmat HF60: Toximul 8320 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Kemmat HF 60: Toximul 8320: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4975.1	900
Solvent used: Diethylene Glycol Monoethyl Ether	876.1	175
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Kemmat HF 60 (anionic surfactant)	130.8	26
Block Co-polymer used: Toximul 8320 (non-ionic surfactant)	334.7	67
Total	6316.7

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	900g/L	Passed
pH at 1 % aq. Solution	6 to 8	7.15	Passed
Specific gravity (temperature at 20C)	1.25 to 1.27	1.263	Passed
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 0.3ml cream@bottom	Passed

11/06/14,jb20952 cap specification.docx,188

- 188 2014203147 11 Jun2014

Persistent Foaming	<60mL after 1 min	10 mis	Passed
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs	1760 cps	Passed
Viscosity (temperature at 20C)	0 to 2000cPs	465 cps	Passed
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.	-	n/a
General Remarks PASS or FAIL?	PASS
Description:	SOLUTION MEETS ALL CRITERIA

Trial # 4t

HALOXYFOP 900 TRIAL

Haloxyfop active present at 900g/L

Trial details: Trial using Toximul 8320 as non-ionic surfactants against Nanssa 70 EVM

Ratio of Nansa 70 EVM: Toximul 8320 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Nansa 70 EVM: Toximul 8320: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4973.3	900
Solvent used: Diethylene Glycol Monoethyl Ether	880.6	176
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Nansa 70 EVM (anionic surfactant)	131.4	26

11/06/14,jb20952 cap specification.docx,189

- 189 2014203147 11 Jun2014

Block Co-polymer used: Toximul 8320 (non-ionic surfactant)	340.9	68
Total	6326.1	900

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	900	n/a
pH at 1 % aq. Solution	6 to 8	7.55	n/a
Specific gravity (temperature at 20C)	1.25 to 1.27	1.265	n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 0.3ml cream&oil@bottom	Pass
Persistent Foaming	<60mL after 1 min	8 mis	n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs	1640 cps	n/a
Viscosity (temperature at 20C)	0 to 2000cPs	440 cps	n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.	-	n/a
General Remarks PASS or FAIL?	PASS
Description:	SOLUTION MEETS ALL CRITERIA

Trial #4u

HALOXYFOP 900 TRIAL

Haloxyfop active present at 900g/L

Trial details: Trial using Toximul 8320 as non-ionic surfactants against Rhodacal 70

Ratio of Rhodacal 70: Toximul 8320 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Rhodacal 70: Toximul 8320: Diethylene Glycol monoethyl ether

11/06/14,jb20952 cap specification.docx,190

2014203147 11 Jun2014

- 190FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4974.0	900
Solvent used: Diethylene Glycol Monoethyl Ether	907.0	181
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Rhodacal 70 (anionic surfactant)	139.5	28
Block Co-polymer used: Toximul 8320 (non-ionic surfactant)	320.0	64
Total	6340.5

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 3.0ml cream&oil@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a

11/06/14,jb20952 cap specification.docx,191

- 191 2014203147 11 Jun2014

Trial #4v

HALOXYFOP 900 TRIAL

Haloxyfop active present at 900g/L

Trial details: Trial using Toximul 8320 as non-ionic surfactants against Rhodacal 70B Ratio of Rhodacal 70B: Toximul 8320 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Rhodacal 70B: Toximul 8320: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4983.5	902
Solvent used: Diethylene Glycol Monoethyl Ether	837.5	168
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Rhodacal 70B (anionic surfactant)	162.5	33
Block Co-polymer used: Toximul 8320 (non-ionic surfactant)	320.0	64
Total	6303.5

11/06/14,jb20952 cap specification.docx,192

2014203147 11 Jun2014

- 192-

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 3ml cream&oil@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING BECAUSE EMULSION CHARACTERISTICS FAILED

Trial#4w

HALOXYFOP 900 TRIAL

Haloxyfop active present at 900g/L

Trial details: Trial using Teric N13 as non-ionic surfactants against Kemmat HF 60

Ratio of Kemmat HF 60: Teric N9 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Kemmat HF60: Teric N9: Diethylene Glycol monoethyl ether

11/06/14,jb20952 cap specification.docx,193

- 193 2014203147 11 Jun2014

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4977.0	901
Solvent used: Diethylene Glycol Monoethyl Ether	894.0	179
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Kemmat HF 60 (anionic surfactant)	132.5	27
Nonyl Phenol Ethoxylates used: Teric N9 (non-ionic surfactant)	321.0	64
Total	6324.5

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1 % aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 2.5ml cream&oil@bottom	Failed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a

11/06/14,jb20952 cap specification.docx,194

- 194 2014203147 11 Jun2014

Trial #4x

HALOXYFOP 900 TRIAL

Haloxyfop active present at 900g/L

Trial details: Trial using Teric N9 as non-ionic surfactants against Nansa 70 EVM

Ratio of N60E: Teric N9 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Nanasa 70 EVM : Teric N9: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4977.0	901
Solvent used: Diethylene Glycol Monoethyl Ether	910.5	182
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Nansa 70 EVM (anionic surfactant)	146.5	29
Nonyl Phenol Ethoxylates used: Teric N9 (non-ionic surfactant)	313.0	63
Total	6347.0

12/12/17,3472646_l.docx.195

- 195 2014203147 29 Jan 2018

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1% aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 2.0ml cream&oil@bottom	Passed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	PASS
Description:	SOLUTION MEETS ALL CRITERIA

Trial #4y

HALOXYFOP 900 TRIAL

Haloxyfop active present at 900g/L

Trial details: Trial using Teric N9 as non-ionic surfactants against Rhodacal 70

Ratio of N60E: Teric N9 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Rhodacal 70: Teric N9: Diethylene Glycol monoethyl ether

FORMULATION

3472646vl

12/12/17,3472646_1.docx, 196

- 196 2014203147 29 Jan 2018

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4983.5	902
Solvent used: Diethylene Glycol Monoethyl Ether	902.0	180
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Rhodacal 70 (anionic surfactant)	136.0	27
Nonyl Phenol Ethoxylates used: Teric N9 (non-ionic surfactant)	307.0	61
Total	6328.5

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1% aq. Solution	6 to 8		n/a
Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 2.0ml cream&oil@bottom	Passed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a

3472646v 1

12/12/17,3472646_ 1 .docx, 197

- 197 2014203147 29 Jan 2018

General Remarks PASS or FAIL?	PASS
Description:	SOLUTION MEETS ALL CRITERIA

Trial #4z

HALOXYFOP 900 TRIAL

Haloxyfop active present at 900g/L

Trial details: Trial using Teric N9 as non-ionic surfactants against Rhodacal 70B Ratio of N60E: Teric N9 (30:70)

Anionic/Non-ionic surfactant/ Solvent used: Rhodacal 70B: Teric N9: Diethylene Glycol monoethyl ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4976.5	901
Solvent used: Diethylene Glycol Monoethyl Ether	907.0	181
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Rhodacal 70B (anionic surfactant)	142.0	28
Nonyl Phenol Ethoxylates used: Teric N9 (non-ionic surfactant)	313.0	63
Total	6338.5

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	orange liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop		n/a
pH at 1% aq. Solution	6 to 8		n/a

3472646vl

12/12/17,3472646_l.docx,198

- 198 2014203147 29 Jan 2018

Specific gravity (temperature at 20C)	1.25 to 1.27		n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 2.0ml cream&oil@bottom	Passed
Persistent Foaming	<60mL after 1 min		n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs		n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.		n/a
General Remarks PASS or FAIL?	PASS
Description:	SOLUTION MEETS ALL CRITERIA

3472646vl

11/06/14,jb20952 cap specification.docx,199

- 199 2014203147 11 Jun2014

APPENDIX 12

Trial #4ae

HALOXYFOP 900 TRIAL

Haloxyfop active present at 900g/L

Ratio of Ninate 60E: Toximul 8320 (30:70)

Solvent: Recosol 200

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4972.5	900
Solvent used: Recosol 200	920.0	184
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	135.5	27
Block Co-polymer used: Toximul 8320 (non-ionic surfactant)	302.5	61
Total	6330.5

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	Brown liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	-	n/a
pH at 1 % aq. Solution	6 to 8	-	n/a
Specific gravity (temperature at 20C)	1.25 to 1.27	-	n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 3.0ml cream&oil@bottom	Failed

11/06/14,jb20952 cap specification.docx,200

-2002014203147 11 Jun2014

Persistent Foaming	<60mL after 1 min	-	n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs	-	n/a
Viscosity (temperature at 20C)	0 to 2000cPs	-	n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.	-	n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING BECAUSE EMULSION CHARACTERISTICS FAILED

Trial # 4af

HALOXYFOP 900 TRIAL

Haloxyfop active present at 900g/L

Trial details: Trial using Toximul 8320 as non-ionic surfactants against Ninate 60E Ratio of Ninate 60E: Toximul 8320 (30:70)

Solvent: Butyl Glysolv

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4974.0	900
Solvent used: Butyl Glysolv	831.5	166
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	134.5	27

11/06/14,jb20952 cap specification.docx,201

2014203147 11 Jun2014

-201 -

Block Co-polymer used: Toximul 8320 (non-ionic surfactant)	321.5	64
Total	6261.5

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	Brown liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	900 g/L	Passed
pH at 1 % aq. Solution	6 to 8	7.30	Passed
Specific gravity (temperature at 20C)	1.25 to 1.27	1.252	Passed
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, Traces of cream at the bottom	Passed
Persistent Foaming	<60mL after 1 min	14 mis of foam after 1 min.	Passed
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs	1140cPs	Passed
Viscosity (temperature at 20C)	0 to 2000cPs	300cPs	Passed
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.	-	n/a
General Remarks PASS or FAIL?	PASS
Description:	SOLUTION MEETS ALL CRITERIA

Trial #4ag

HALOXYFOP 900 TRIAL

Haloxyfop active present at 900g/L

Ratio of Ninate 60E: Toximul 8320 (30:70)

Solvent: Recosol 150

11/06/14,jb20952 cap specification.docx,202

-2022014203147 11 Jun2014

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4974.0	900
Solvent used: Recosol 150	815.0	163
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	140.0	28
Block Co-polymer used: Toximul 8320 (non-ionic surfactant)	309.5	62
Total	6238.5

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	Brown liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	-	n/a
pH at 1 % aq. Solution	6 to 8	-	n/a
Specific gravity (temperature at 20C)	1.25 to 1.27	-	n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 2.0ml cream&oil@bottom	Failed
Persistent Foaming	<60mL after 1 min	-	n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs	-	n/a
Viscosity (temperature at 20C)	0 to 2000cPs	-	n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.	-	n/a

11/06/14,jb20952 cap specification.docx,203

2014203147 11 Jun2014

-203 -

Trial #4ah

HALOXYFOP 900 TRIAL

Haloxyfop active present at 900g/L

Ratio of Ninate 60E: Toximul 8320 (30:70)

Solvent: Ethylene Glycol Monobutyl Ether

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4976.5	901
Solvent used: Ethylene Glycol Monobutyl Ether	850.0	170
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	129.0	26
Block Co-polymer used: Toximul 8320 (non-ionic surfactant)	299.0	60
Total	6254.5

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	Brown liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	901 g/L	Passed
pH at 1 % aq. Solution	6 to 8	7.13	Passed

11/06/14,jb20952 cap specification.docx,204

-2042014203147 11 Jun2014

Specific gravity (temperature at 20C)	1.25 to 1.27	1.251	Passed
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, Traces of cream@bottom	Passed
Persistent Foaming	<60mL after 1 min	18mls of foam after 1 min.	Passed
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs	1120 cPs	Passed
Viscosity (temperature at 20C)	0 to 2000cPs	310 cPs	Passed
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.	-	n/a
General Remarks PASS or FAIL?	PASS
Description:	SOLUTION MEETS ALL CRITERIA

Trial # 4ai

HALOXYFOP 900 TRIAL

Haloxyfop active present at 900g/L

Ratio of Ninate 60E: Toximul 8320 (30:70)

Solvent: Dimethyl Succinate

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate	4982.5	902
eg. Haloxyfop Tech (94% purity)
Solvent used: Dimethyl Succinate	992.0	198
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol	134.0	27

11/06/14,jb20952 cap specification.docx,205

-2052014203147 11 Jun2014

used: Ninate 60E (anionic surfactant)
Block Co-polymer used: Toximul 8320 (non-ionic surfactant)	312.0	62
Total	6420.5

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	Formulation is not stable	-
Assay	875 to 925g/L Haloxyfop	-	n/a
pH at 1 % aq. Solution	6 to 8	-	n/a
Specific gravity (temperature at 20C)	1.25 to 1.27	-	n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	-	n/a
Persistent Foaming	<60mL after 1 min	-	n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	-	n/a
Viscosity (temperature at 5C)	0 to 2000cPs	-	n/a
Viscosity (temperature at 20C)	0 to 2000cPs	-	n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.	-	n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING BECAUSE FORMULATION IS NOT STABLE

11/06/14,jb20952 cap specification.docx,206

-2062014203147 11 Jun2014

Trial # 4aj

HALOXYFOP 900 TRIAL

Haloxyfop active present at 900g/L

Ratio of Ninate 60E: Toximul 8320 (30:70)

Solvent: Toluene

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4970.0	899
Solvent used: Toluene	816.5	163
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	130.5	26
Block Co-polymer used: Toximul 8320 (non-ionic surfactant)	304.5	61
Total	6221.5

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	Brown liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	899 g/L	Passed
pH at 1%aq. Solution	6 to 8	7.69	Passed
Specific gravity (temperature at 20C)	1.25 to 1.27	1.244	-
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 1.0ml cream@bottom	Passed
Persistent Foaming	<60mL after 1 min	12 mis of foam	Passed

11/06/14,jb20952 cap specification.docx,207

2014203147 11 Jun2014

-207 -

Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs	690 cPs	Passed
Viscosity (temperature at 20C)	0 to 2000cPs	135 cPs	Passed
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.	-	n/a
General Remarks PASS or FAIL?	PASS
Description:	SOLUTION MEETS ALL CRITERIA

Trial #4ak

HALOXYFOP 900 TRIAL

Haloxyfop active present at 900g/L

Solvent: Acetone

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4970.0	899
Solvent used: Acetone	730.0	146
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	143.0	29
Block Co-polymer used: Toximul 8320 (non-ionic surfactant)	318.5	64
Total	6161.5

11/06/14,jb20952 cap specification.docx,208

-2082014203147 11 Jun2014

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	Brown liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	899 g/L	Passed
pH at 1%aq. Solution	6 to 8	7.69	Passed
Specific gravity (temperature at 20C)	1.25 to 1.27	1.232	-
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete reemulsion after 24h	milky emulsion, no separation, 0.2ml cream@bottom	Passed
Persistent Foaming	<60mL after 1 min	12mlsoffoam	Passed
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs	260 cPs	Passed
Viscosity (temperature at 20C)	0 to 2000cPs	73 cPs	Passed
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.	-	n/a
General Remarks PASS or FAIL?	PASS
Description:	SOLUTION MEETS ALL CRITERIA

Trial # 4al

HALOXYFOP 900 TRIAL

Haloxyfop active present at 900g/L

Ratio of Ninate 60E: Toximul 8320 (30:70)

Solvent: Dimethyl Adipate

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate	4973.0	900

11/06/14,jb20952 cap specification.docx,209

-2092014203147 11 Jun2014

eg. Haloxyfop Tech (94% purity)
Solvent used: Dimethyl Adipate	933.5	187
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	144.5	29
Block Co-polymer used: Toximul 8320 (non-ionic surfactant)	309.5	62
Total	6360.5

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	Formulation is not stable	-
Assay	875 to 925g/L Haloxyfop	-	n/a
pH at 1 % aq. Solution	6 to 8	-	n/a
Specific gravity (temperature at 20C)	1.25 to 1.27	-	n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	-	n/a
Persistent Foaming	<60mL after 1 min	-	n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	-	n/a
Viscosity (temperature at 5C)	0 to 2000cPs		n/a
Viscosity (temperature at 20C)	0 to 2000cPs	-	n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.	-	n/a

11/06/14,jb20952 cap specification.docx,210

-2102014203147 11 Jun2014

General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING BECAUSE FORMULATION IS NOT STABLE

Trial#4am

HALOXYFOP 900 TRIAL

Haloxyfop active present at 900g/L

Ratio of Ninate 60E: Toximul 8320 (30:70)

Solvent: Xylene

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4975.0	900
Solvent used: Xylene	795.0	159
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	128.5	26
Block Co-polymer used: Toximul 8320 (non-ionic surfactant)	313.0	63
Total	6211.5

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	Brown liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	-	n/a
pH at 1 % aq. Solution	6 to 8	-	n/a

11/06/14,jb20952 cap specification.docx,211

-211 2014203147 11 Jun2014

Specific gravity (temperature at 20C)	1.25 to 1.27	-	n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 2.5ml cream	Failed
Persistent Foaming	<60mL after 1 min	-	n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs	-	n/a
Viscosity (temperature at 20C)	0 to 2000cPs	-	n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.	-	n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING BECAUSE EMULSION CHARACTERISTICS FAILED

Trial #4an

HALOXYFOP 900 TRIAL

Haloxyfop active present at 900g/L

Solvent: N-methylpyrrolidone

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate	4971.0	900
eg. Haloxyfop Tech (94% purity)
Solvent used: N-methylpyrrolidone	924.5	185

11/06/14,jb20952 cap specification.docx,212

-2122014203147 11 Jun2014

Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	140.0	28
Block Co-polymer used: Toximul 8320 (non-ionic surfactant)	306.5	61
Total	6342.0

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	Brown liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	-	n/a
pH at 1 % aq. Solution	6 to 8	-	n/a
Specific gravity (temperature at 20C)	1.25 to 1.27	-	n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete reemulsion after 24h	milky emulsion, no separation, 2.5ml cream@bottom	Failed
Persistent Foaming	<60mL after 1 min	-	n/a
Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs	-	n/a
Viscosity (temperature at 20C)	0 to 2000cPs	-	n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.	-	n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING BECAUSE EMULSION CHARACTERISTICS FAILED

11/06/14,jb20952 cap specification.docx,213

2014203147 11 Jun2014

-213 Trial #4ao

HALOXYFOP 900 TRIAL

Haloxyfop active present at 900g/L

Ratioof Ninate 60E: Toximul 8320 (30:70)

Solvent: Exxate 700

FORMULATION

Component (Chemical name)	Amount, g	Loading, g/L
methyl (R) -2-[4-(3-chloro-5-trifluoromethyl-2pyridyloxy)phenoxy]propanoate eg. Haloxyfop Tech (94% purity)	4973.0	900
Solvent used: Exxate 700	812.5	163
Calcium C10-16 alkyl benzenesulfonic acid in 2-ethyl hexanol used: Ninate 60E (anionic surfactant)	126.5	25
Block Co-polymer used: Toximul 8320 (non-ionic surfactant)	301.5	60
Total	6213.5

RESULTS OF FORMULATION
Parameter	Required	Results	Remarks
Appearance	Red to brown liquid, homogeneous	Brown liquid, homogeneous	Passed
Assay	875 to 925g/L Haloxyfop	-	n/a
pH at 1 % aq. Solution	6 to 8	-	n/a
Specific gravity (temperature at 20C)	1.25 to 1.27	-	n/a
Emulsion characteristics	<2mL cream after 30 min, trace of oil after 30 min and complete re-emulsion after 24h	milky emulsion, no separation, 2.5ml cream@bottom	Failed
Persistent Foaming	<60mL after 1 min	-	n/a

11/06/14,jb20952 cap specification.docx,214

-2142014203147 11 Jun2014

Cold temp, stability (Accelerated Ageing)	Dark yellow to brown liquid, homogeneous, free from phase separation in any format	Brown liquid, homogeneous, free from phase separation in any format	Passed
Viscosity (temperature at 5C)	0 to 2000cPs	-	n/a
Viscosity (temperature at 20C)	0 to 2000cPs	-	n/a
Long Term Performance	Test parameter maintained within required range after accelerated aging to approximate 2 years.	-	n/a
General Remarks PASS or FAIL?	FAIL
Description:	DID NOT CONTINUE ANY FURTHER TESTING BECAUSE EMULSION CHARACTERISTICS FAILED

215

2014203147 29 Jan 2018

Claims

1. An emulsifiable concentrate formulation comprising:

haloxyfop or a derivative thereof at a concentration of at least 825 g/L; an agriculturally acceptable surfactant selected from the group consisting of an alkylbenzene sulfonate, a tallow amine ethoxylate, an ether sulfate, an alcohol alkoxylate, a nonylphenol-9-ethylene oxide, a nonylphenol-20-ethylene oxide, a butyl alkylene oxide block copolymer and any combination thereof; and an agriculturally acceptable solvent comprising a monoalkyl ether.

2. The emulsifiable concentrate formulation of Claim 1, wherein the agriculturally acceptable surfactant is present at a concentration of at least about 45 g/L.

3. An emulsifiable concentrate formulation comprising:

haloxyfop or a derivative thereof at a concentration of at least about 825 g/L; an agriculturally acceptable ionic surfactant;

an agriculturally acceptable non-ionic surfactant selected from the group consisting of an alcohol alkoxylate, a nonylphenol-9-ethylene oxide, a nonylphenol20-ethylene oxide, a butyl alkylene oxide block copolymer and any combination thereof; and an agriculturally acceptable solvent comprising a monoalkyl ether.

4. The emulsifiable concentrate formulation of Claim 3, wherein the ionic surfactant is selected from the group consisting of an alkylbenzene sulfonate, an alkylphenol ether sulfate, a tallow amine ethoxylate, an ether sulfate and any combination thereof.

5. The emulsifiable concentrate fonnulation of Claim 3 or Claim 4, wherein the ionic surfactant is present at a concentration of at least about 9 g/L.

6. The emulsifiable concentrate formulation of Claim 5, wherein the ionic surfactant is present at a concentration of at least about 12.5 g/L.

3517940vl

216

2014203147 29 Jan 2018

7. The emulsifiable concentrate formulation of any one of Claims 3 to 6, wherein the non-ionic surfactant is present at a concentration of at least about 36 g/L.

8. The emulsifiable concentrate formulation of Claim 7, wherein the non-ionic surfactant is present at a concentration of at least about 57.5 g/L.

9. The emulsifiable concentrate formulation of any one of Claims 3 to 8, wherein the ionic surfactant is or comprises an anionic surfactant.

10. The emulsifiable concentrate formulation of any one of the preceding claims, wherein the alcohol alkoxylate is or comprises polypropylene glycol alkoxylate.

11. The emulsifiable concentrate formulation of any one of the preceding claims, wherein the solvent is or comprises a monomethyl ether, a monoethyl ether, a monobutyl ether or any combination thereof.

12. The emulsifiable concentrate formulation of any one of the preceding claims, wherein the solvent is present at a concentration of at least about 180 g/L.

13. An emulsifiable concentrate formulation comprising:

haloxyfop or a derivative thereof at a concentration of at least about 650 g/L; a first agriculturally acceptable surfactant comprising an ionic surfactant; a second agriculturally acceptable surfactant selected from the group consisting of:

an alcohol alkoxylate; and a butyl alkylene oxide block copolymer; and an agriculturally acceptable solvent present at a concentration of at least about 187 g/L, wherein the solvent is or comprises a pyrrolidone.

14. An emulsifiable concentrate formulation comprising:

haloxyfop or a derivative thereof at a concentration of at least about 650 g/L; a first agriculturally acceptable surfactant comprising an ionic surfactant; a second agriculturally acceptable surfactant comprising a butyl alkylene oxide block copolymer; and

3517940vl

217

2014203147 29 Jan 2018 an agriculturally acceptable solvent selected from the group consisting of an alkyl ether, a mono-substituted benzene, a ketone and any combination thereof.

15. The emulsifiable concentrate formulation of Claim 13 or Claim 14, wherein the first agriculturally acceptable surfactant is present at a concentration of at least about 12.5 g/L.

16. The emulsifiable concentrate formulation of any one of Claims 13 to 15, wherein the second agriculturally acceptable surfactant is present at a concentration of at least about 57.5 g/L.

17. An emulsifiable concentrate formulation comprising:

haloxyfop or a derivative thereof at a concentration of at least about 850 g/L; an agriculturally acceptable ionic surfactant;

an agriculturally acceptable non-ionic surfactant selected from the group consisting of:

a nonylphenol-13-ethylene oxide present at a concentration such that the ratio of the ionic surfactant to the non-ionic surfactant is at least about 0.3:1;

a nonylphenol-15-ethylene oxide present at a concentration such that the ratio of the ionic surfactant to the non-ionic surfactant is less than about 0.15:1; and an agriculturally acceptable solvent comprising a monoalkyl ether.

18. An emulsifiable concentrate formulation comprising:

haloxyfop or a derivative thereof at a concentration of about 750 g/L to about

850 g/L;

an agriculturally acceptable ionic surfactant;

a butyl alkylene oxide block copolymer;

a nonylphenol-20-ethylene oxide present at a concentration such that the ratio of the ionic surfactant to the non-ionic surfactant is less than about 0.15:1;

3517940vl

218

2014203147 29 Jan 2018 a nonylphenol-30-ethylene oxide present at a concentration such that the ratio of the ionic surfactant to the non-ionic surfactant is less than about 0.26:1; and a nonylphenol-15-ethylene oxide present at a concentration such that the ratio of the ionic surfactant to the non-ionic surfactant is at least about 0.4:1; and an agriculturally acceptable solvent comprising a monoalkyl ether.

19. An emulsifiable concentrate formulation comprising:

haloxyfop or a derivative thereof at a concentration of about 650 g/L to about

750 g/L;

an agriculturally acceptable ionic surfactant;

a butyl alkylene oxide block copolymer;

a nonylphenol-20-ethylene oxide present at a concentration such that the ratio of the ionic surfactant to the non-ionic surfactant is less than about 0.26:1;

a nonylphenol-13-ethylene oxide present at a concentration such that the ratio of the ionic surfactant to the non-ionic surfactant is less than about 0.26:1;

a nonylphenol-15-ethylene oxide present at a concentration such that the ratio of the ionic surfactant to the non-ionic surfactant is at least about 0.4:1; and a nonylphenol-9-ethylene oxide present at a concentration such that the ratio of the ionic surfactant to the non-ionic surfactant is less than about 0.26:1; and an agriculturally acceptable solvent comprising a monoalkyl ether.

20. An emulsifiable concentrate formulation comprising:

an agriculturally acceptable non-ionic surfactant comprising a butyl alkylene oxide block copolymer, wherein the non-ionic surfactant is present at a concentration such that the ratio of the ionic surfactant to the non-ionic surfactant is at least about 0.4:1; and an agriculturally acceptable solvent comprising xylene.

3517940vl

219

2014203147 29 Jan 2018

21. An emulsifiable concentrate formulation comprising:

an agriculturally acceptable non-ionic surfactant comprising a butyl alkylene oxide block copolymer, wherein the non-ionic surfactant is present at a concentration such that the ratio of the ionic surfactant to the non-ionic surfactant is less than about 0.15:1;

an agriculturally acceptable solvent comprising a pyrrolidone.

22. The emulsifiable concentrate formulation of any one of Claims 13 to 21, wherein the ionic surfactant is or comprises an alkylbenzene sulfonate.

23. A method of selectively killing or suppressing weeds such as barley grass, brome grass, paradoxa grass, volunteer cereals, wild oats, musky or ferny leaf Storksbill, common crowsfoot, common storksbill, long or shiny leaf storksbill, couch grass, Rhodes grass, Australian millet, barnyard grass, green panic, Johnson grass, liverseed grass, Mossman river grass, summer grass, slender rats tail grass, Buffel grass, kikuyu, paspalum spp, starai spp, annual ryegrass, lesser canary grass, Rope twitch, Erodium spp which comprises adding an emulsifiable concentrate fonnulation as claimed in any one of claims 1 to 22 to an amount of spray water in a spray tank sufficient to make up a diluted liquor of generally accepted strength and spraying the resultant diluted liquor onto weeds or ground.

3517940vl