DE1265327B - Thermoplastic hot melt adhesive - Google Patents

Description

EUNDESREPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl .:

C 09 j

German KL: 22 i - 2

Number: 1 265 327

File number: S 97435IV c / 22 i

Filing date: June 2, 1965

Open date: April 4, 1968

Hot melt adhesives result after their application to the surfaces to be bonded and their joining a bond only through cooling, which is to be distinguished from crosslinking or from others chemical reactions. Before heating, the adhesives are solid. When heated, they melt and become fluid. The fact that the hot melt adhesives melt again after cooling can be brought, makes it possible to apply them first to a surface and later the Make gluing.

Hot melt adhesives are used to bond wood, paper, plastics, textiles and other materials used. A particularly important field of application is the manufacture of paper cartons. These hot melt adhesives for cardboard boxes must have a high Have adhesive strength in high humidity and extreme temperatures and also withstand impacts can. In addition, with regard to melting point, setting time, pot life and processability on machines used to manufacture corrugated cardboard and in automatic packaging machines high demands are made.

Shrink films made from copolymers of ethylene and vinyl acetate and / or vinyl propionate are known. They are highly elastic and can be welded well and permanently when exposed to heat. However, no suggestion could be derived from this that such copolymers were formed suitable as components of hot melt adhesives. During the welding process, only the foils are welded to themselves, while a hot melt adhesive has the task of various To glue surfaces together.

The abovementioned copolymers have also been used in paper coating compositions. The papers laminated with it can be welded (of course only coating side to coating side), so that they can be used as packaging material without the use of a special adhesive suitable. However, a solvent is required here, which means that there is a risk that through Traces of solvent weaken the bonding points.

The thermoplastic hot melt adhesive of the invention on the basis of ethylene-vinyl acetate copolymers and a resin composition containing a homogeneous mixture of about 75 to about 35 weight percent of a hydrocarbon-aldehyde resin with acetate groups and a melting point according to the ring and ball method of from about 4 to 177 ⁰ C and about 25 to about 65 percent by weight of an ethylene thermoplastic hot melt adhesive

Applicant:

Sun Oil Company, Philadelphia, Pa. (V. St. A.)

Representative:

Dr. O. Dittmann, patent attorney,

8000 Munich 90, Bereiteranger 15

Named as inventor:

Melvin Ellis Peterkin, Brookhaven, Pa .;

Lois Wendell Hall Jr., Claymont, Del. (V. StA.)

Claimed priority:

V. St. v. America June 3, 1964 (372 354)

Vinyl acetate copolymers with at least 25 percent by weight vinyl acetate.

The ethylene-vinyl acetate copolymer preferably has a melting point by the ring and ball method of about 110 to about 149 ° C. Das Hydrocarbon-aldehyde resin suitably contains about 0.1 to 1.0 acetate groups per molecule. The lower one The limit of its amount in the adhesive is generally 40% by weight.

The hot melt adhesives according to the invention are particularly suitable for gluing the middle layer to the Upper and lower surfaces of corrugated cardboard.

Aromatic hydrocarbon-aldehyde resins are well known. Their manufacture is made up of numerous Known patents, e.g. B. the United States patents 1,827,538 and 2,999,208 as well as in the literature, z. B. von Walker, Formaldehyde 2nd Edition, pp. 342 to 345.

Typical starting materials for the preparation of these resins are aromatic hydrocarbon fractions boiling from 93 to 510 ⁰ C.

Suitable aldehydes are formaldehyde and compounds which split off formaldehyde under the reaction conditions, such as paraformaldehyde and trioxymethylene and trioxane. Formaldehyde and paraformaldehyde are preferred because they are readily available and are easy to process. Other aldehydes, such as acetaldehyde, propionaldehyde and butyraldehyde, can also be used. The aldehyde

809 537/550

3 4

is used in amounts of 1 to 30 percent by weight, then 8.16 kg of 96 percent by weight

added to the aromatic hydrocarbons in the sulfuric acid slowly to 24.9 kg glacial acetic acid under stirring reaction mixture, used. ren given, and the mixture was slowly taking

Many catalysts are loaded into the reaction vessel to produce this agitation. Resins known, e.g. As sulfuric acid, hydrofluoric acid, formic 5 The reaction mixture was stirred at a temperature 88-110 ⁰ C for about 30 minutes at sensäure, phosphoric acid, Bortriftuorid, metal chlorides. In that and other acidic catalysts. Preferably closed system, the pressure was slowly increased to sulfuric acid or boron trifluoride. Acetic acid needs to be increased from 2.25 to 2.32.

be present in the reaction because they added the acetate groups. The heating was then discontinued supplies, the layer embedded in the molecule of the resin is removed by settling, and the reaction builds up will. The importance of these acetate group products were hot in one working with water will be explained in more detail. Pumped washing device. The products were

The following reaction conditions can be washed four times. The water was turned over by settling: temperature 10 to 200 ° C, preferential removed and the reaction products were in Vaweise 80 to 150 ⁰ C; Pressure 0.70 to 17.6 kg / cm ² , pre-vacuum distilled. 13.89 kg of a hard one, preferably 0.98 to 8.44 kg / cm ² ; Reaction time 10 mi resin. This corresponds to a soil fraction that grooves up to 10 hours. half boils from about 260 ° C / 1 mm Hg. The material A hydrocarbon-aldehyde resin was made as has a melting point according to the ring and ball sequence: 45.41 catalytic gas oil with a method of 104 ° C. These resins described have a boiling range from 204 to 343 ° C. and with a content of 20 hold about 0.1 to about 1.0 acetate groups per mol of 43% of aromatics. The analysis was given by the saponification glass-lined reaction vessel, numbered and by the ultra-red spectrum, provided with a turbine stirrer. The production of ethylene-vinyl acetate mixed poly-Then 1.81 kg of paraformaldehyde and 7.571 merisates are known, for. B. from the USA patent specification acetic acid is added and the mixture is heated ^{to 93 0} C with the aid of 25 2 200 429 and Canadian patent 657 977. of an oil bath. In a separate In general, the preparation takes place by mixing reaction vessel, a complex compound was prepared from polymerization of a mixture of ethylene and 2.064 kg of BF ₃ and 3.03 l of acetic acid. This vinyl acetate with the help of a free radical catalyst was added to the other constituents tensile catalyst, such as oxygen or an organic. The temperature was kept at about 104 ° C peroxide at a pressure of 100 to 200 atm and a th. No pressure was applied. After 15 micro temperature of 150 to 250 ⁰ C and then grooves heating was discontinued and the acidic isolating the reaction product. The percentage of vinyl layer peeled off. The remainder of the transacetate content in the resin appears to be important. It has been found that the settlement vessel was washed _{three times with 750 ml of H 2} O and that at least about 25 percent by weight was subsequently _{washed three times with 15.11 H 2 O.} The 35 vinyl acetate in the ethylene-vinyl acetate mixed poly-water was decanted and the contents of the vessel must be present in order to be homogeneous in a vacuum distillation unit. FoI mixture of the copolymer with the carbon-end fractions were collected: initial boiling hydrogen-aldehyde resin was obtained. Mixed polymers, point at 343.5 ° C. = 62.8% (unreacted extract from less than about 25 percent by weight of vinyl acetate starting material); 344 to 434 ° C = 5.1%; 434.5 to 40 are not compatible when heated, because 482.5 ° C = 10.9% and 482.5 ° C = 21.1%. The between the ethylene-vinyl acetate copolymer separates itself see 344 and 434 ⁰ C is a fraction passing over from the hydrocarbon-aldehyde resin when standing in a slightly yellow liquid resin. Its between 434.5 and the heat.

482.5 ° C passing fraction is a soft, solid Since hotmelt adhesives have a pronounced pot life,

Resin with a melting point after the ring and 45 sharp melting points and fast setting times Ball method from 45 to 50 ° C. If these two frac- tional are to have, they must have a stable homogeneous functions will form for the melt mixture according to the invention.

adhesives not normally used. The hot melt adhesive is produced by

The above 482.5 ⁰ C-boiling distillation residue pending mixing of the ingredients at a Tempe state, the 50 temperature has a melting point by the ring and 93 to 204 ° C and preferably at 149 ball method of 129 ° C, is a hard coal up to 177 ° C.

Hydrogen-aldehyde resin, which is suitable for the inven- To apply to a surface, the adhesive

suitable adhesives. Hard resins with substance heated to a temperature of 121 to 177 ° C, a melting point according to the ring and ball method To test the properties of hot melt adhesive

from 49 to 177 ° C, preferably from 74 to 149 ° C, two simple experiments with Kraft are particularly suitable. paper proven:

A hard one made according to the above is the first to test for tear strength. the

Resin was made with HiEe of the usual combustion test pieces from a 22.7-kg Kraft paper in methods analyzed. It contained approximately 2 to 8 Ge 2.54 x 15.24 cm strips cut. A stripe weight percent oxygen. 60 is on a single side to a length of

Another hydrocarbon-aldehyde resin was made two inches with a 25.4 to 50.8 micron coating as follows: 102.45 kg of catalytic gas oil was applied with the adhesive and another strip had a boiling range of 231 to 355 degrees C and a Ge placed on the first strip. The sample is then stop of 47.3% aromatics and 6.35 kg Paraform- of two paper layers, which were aldehyde together at a in a 189 1 drum forming, with glass Removing 65 12,90 cm ² surface at one end connected to a clothed reaction vessel that is connected to one. One then grasps the free ends of the stirrer strip that was provided. The mixture was heated to 88 and slowly pulling it in opposite directions until HO ^{0 C.} perpendicular to the bonding plane. A tear-resistant

Gluing is indicated if the glued joint is only damaged at room temperature and at -28.4 ° C of the bonded material (in this case the Kraft paper) could be torn. the The latter temperature is used to reduce the fragility at a particularly low temperature (cold store temperature) to consider.

The second attempt concerns the loosening of the bond at an elevated temperature. It is performed by making a two inch tab connection with one inch by sixteen inch strips of 22.7 kg Kraft paper. The test pieces are connected by a 12.90 cm ² adhesive surface with a thickness of 25.4 to 50.8 μ. The total length of the sample is then 25.40 cm. The strip is hung in a 66 ^° C. oven for ¹ _{1/2 hours.} There should be no evidence that the paper strips are separating from one another when the test is considered passed.

The following approaches show the properties of various adhesives. The ethylene-vinyl acetate copolymer resins had the following characteristics:

number 1 No. 2 No. 3 No. 4 Vinyl acetate content,
Weight percent .. 18th 18th 29 33 Melting point after
Ring and ball
method, ⁰ C 99 199 135.5 117.5 Viscosity at 30 ⁰ C .. 0.54 0.92 0.85 0.78

Coal
hydrogen- resin Resin-
Melting Ethylene
Vinyl acetate Mixed poly
mertyp and Enamel Result at layers
separation Yes no no Aldehyde- catalyst punict Mixed poly Vinyl acetate Point exam on -28.4 ° C at 66 ⁰ C resin VKUlg- UIlU
Bullet merisat salary (Ring and
Bullet Tear resistance Weight method) Weight Weight method) at Yes Yes no percent ° C percent percent ⁰ C 21.1 ° C Comparison Yes Yes no attempt Incompatible when heated: No. H ₂ SO ₄ + settles when left standing Yes Yes no 1 70 * acetic acid 98 30th 18th H ₂ SO ₄ + (Number 1) 2 70 * acetic acid 98 30th 18th 109 BF ₃ + (No. 2) 3 80 acetic acid 116 20th 28 (No. 3) 110 example BFo + 1 70 * acetic acid 117 30th 33 82 H ₂ SO ₄ + (No. 4) 2 70 * acetic acid 95 30th 33 91 BF ₃ + (No. 4) 3 50 * acetic acid 117 50 33 (No. 4)

1% antioxidant was added when making the adhesive.

The comparative tests No. 1 and 2 show that ethylene-vinyl acetate copolymers containing about 18% Contain vinyl acetate, are incompatible with a hydrocarbon-formaldehyde resin. Comparative Experiment No. 3 shows that adhesives with a A content of 20% mixed polymer does not result in a tear-resistant connection at -28.4 ° C. Examples ^ to 3 show that adhesives containing at least 25% ethylene-vinyl acetate copolymer and in which the Vinyl acetate concentration is at least 25%, both the test for tear strength and for There is a separation of layers.

The adhesive according to Example 3 was used for a laboratory test on a machine for the production of Corrugated cardboard with the usual 19.1 kg kraft liner and a regular 11.8 kg semi-chemical middle layer used. The adhesive showed good properties on the glue and transfer roll, and it yielded a good bond.

The adhesives according to the invention can contain further additives such as plasticizers, resins that impart adhesive strength, Contain fillers, solvents, thinners, antioxidants and coloring additives.

Suitable plasticizers are e.g. B. the phthalates such as dioctyl phthalate, butyl benzyl phthalate, butyl cyclohexyl phthalate; Phosphate esters, such as tricresyl phosphate, cresyl diphenyl phosphate, sulfonamides, chlorinated biphenyls, Hydrocarbon oils or waxes.

Claims (3)

Patent claims: 1. ThermoplastischerSchmelzklebstoffaufGrundlage of ethylene-vinyl acetate copolymers and a resin containing a homogeneous mixture of about 75 to about 35 weight percent of a hydrocarbon-aldehyde resin with acetate groups and a melting point according to the ring and ball method of from about 49-177 ⁰ C and about 25 to about 65 percent by weight of an ethylene-vinyl acetate copolymer with at least 25 percent by weight vinyl acetate. 7 8 2. Adhesive according to claim 1, characterized by about 0.1 to 1.0 per acetate groups draws that the ethylene-vinyl acetate mixed poly contains molecule. mer a melting point after the ring and Ball method from about 110 to about 149 ° C. Considered publications: 3. Adhesive according to claim 1 or 2, characterized in 5 German Auslegeschrift No. 1127 077; characterized in that the hydrocarbon Alde U.S. Patent No. 2,490,550. 809 537/550 3.68 © Bundesdruckerei Berlin