DE1769154A1 - Viscosity improvement of polyester resins - Google Patents

Description

Visosity improvement of polyester resins

The present invention relates to a polyester system which quickly achieves a high level of visaity and which can be felt by using a polyester shark; mil; 1.) Magnesium hydroxide and 2 «) a potentiating agent, namely with an aliphatic, a 1. · ho η Mo.nooarboxylic acid with up to 7 carbon atoms _t a liquid polyol or water combined _u

Polyester resins are used in the manufacture of a wide variety of articles such as fixtures, boats, and auto parts. Electrical Equipment Applied - During the manufacture of such articles, it is considered desirable to add additional physical properties to the polyester resin used to enable an economical and technically superior production technique. The use of a polyester MgCOK ^ compound,? Elohe rasoh increases the viscosity, is for the desired pro-

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duktionsteohnik a significant factor. The faster climb the vieoosity allows the thickened polyester to work faster to be used after mixing, which can reduce the amount of material held ready; through this the profitability of production is increased.

A feature of the present invention is the combination of MgCOH) ρ with a potentiating agent, thereby reducing its addition a surprisingly rapid increase in the Viaeoaität in the mixture obtained is caused to a polyester resino Another Feature is a process for making polyeater compositions with improved properties. Finally, another feature of the invention is an improved polyeater composition, the MgfOH) «together with a reducing agent contains, resulting in a surprisingly favorable Viacosität.a-time ratio is made possible * Further features can be found in the following description of the invention heryor »

Previous attempts »the viscosity of polyester resins through Increasing Mg (0H) 2 has not been successful. In the USA patent No. 2,628,209 describes that 1 to 10 parts of Mg (OHJg do not cause 100 parts of a resin to evaporate at room temperature The present invention is based on the discovery that by adding Mg (OH) 2 and a

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Potentiating agent for a commonly used polyester resin system an unexpected, very desirable, fast viscosity * Increase is achieved.

The particular type of magnesium hydroxide used in accordance with the present invention is not critical; the commercially available magnesium hydroxides can be used with success. "Such products are, for example, MARINGO H 1241 and MARINCO H 1211, magnesium hydroxides, which can be obtained from the Marine Magnesium Division of Merck & Go., Inc." About 0.2 to 20 ^ wt., preferably 5.0 to 15 Gev7 ₀ $ of Magneaiumhydroxidso the amount of Mg (0H) p lot not critical, because you can use AUOH other amounts, if necessary *.

The potentizing agent used according to the present invention is an aliphatic monocarboxylic acid with up to 7 carbon atoms or a polyol that is liquid at room temperature. In addition, water is also a very effective potentizing agent. that it accelerates the increase in yiacosity to the desired extent. In general, the amount used is 0.1 to 5.0% by weight, depending on the type of polyester resin and the type and amount of magnesium hydroxide used. Suitable foi; en! Sierun £ G! Nittel _B ± n6 for example

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acetic acid, acrylic acid, propionic acid, ethylene glycol, glycerine or sorbitol.

According to the invention, Mg (OH) ₂ and one of the above-described photographic agents are mixed with the polyester resin. The product obtained in this way, a thickened polyester resin *, has the desired physical properties »in particular, it has the ability to achieve a high viscosity in a relatively short time» For example, certain polyester resins thickened according to the invention achieve a viscosity of 220 ps at room temperature in about 20 hours, While otherwise identical, thickened polyester resins containing other known thickeners need about 5 layers to achieve the same viscosity.

It is known that one can do the thickening of polyester resins by Add considerable amounts of powdery PUIlerη can. However, the use of solid filling materials results Resins that are opaque and therefore have only limited applicability. In contrast to this, it is possible, by adding relatively small amounts of the Mg (QH) g potentiator system, to increase the amount of vision that is so very desirable without losing clarity. The resins produced according to the invention are clear and near the polymerization transparent. If clarity is not required, the

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resin compositions according to the invention also include fillers such as normally used in the manufacture of articles from polyester resins. Such fillers are for example Barite, silicon dioxide, magnesium carbonate, diatomaceous earth, Fiberglass or hydrated alumina ο The new ones Compositions referred to herein as thickened polyesters are particularly useful for the manufacture of articles and articles where low tack and a smooth Surface finish are required.

The magnesium hydroxide is preferably added to the polyester resin by being intimately mixed with it by means of a high-speed stirrer with a high visual effect. The magnesium hydroxide can also be mixed with a carrier material to form a dispersion. A "Cowles" looser is suitable for the preparation of such a dispersion. A dry form of Mg (OHJg can also be added to the polyester. The Mg (OH) ₂ is simply mixed into the polyester, using a laboratory tube operated at about 4000 to 6000 revolutions. The addition can take place at room temperature. The potentiating agent is usually dispersed in the resin before the addition of the Mg (OH) ₂ , but it can also be added to the resin at the same time as the magnesium hydroxide »

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They polyesters used as Auagangsaateriallen in the present invention are polymerizable Harezusammensetzungen obtained _t by incorporating EIU precondensed, linear polymer in a monomer polymerlsierbaren compound äthylenieche double bonds and is capable, under crosslinking with the linear polymer to form a solid To react to three-dimensional gels, »The linear polymer is a polymeric ester that is obtained by condensing a dioarboxylic acid (aromatic or ethylene) with a poly oil such as propylene glycol or glycerine. The monomeric, polymerizable compound used for crosslinking contains an ethylene group, which is preferably bonded to a phenyl group, as in the case of styrene, α-methylstyrene or bivinylbenzene. Ale Harse, as you will see above, selenium named for example: Stypol 40-2417 (Freeaan Chemical Company) »Seleotron RS 5003» Seleotrol 5156, Selectron 50012, Seleotron 5119 (Pittsburgh Plate Glase Company), Plaskon 9520 and PE464 (Allied Chemical Company ), Poly11te 8000 (Reichhold Chemical Company) and Vibrin 156R (V »8» Rubber Company) ·

If the Mg (H) ₂ -poteneizing agent system according to the present invention is mixed with a polyester, a mixture * is obtained which has improved physical properties and is particularly suitable for the production of various handcrafted products.

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Loan Manufactured Articles _o Shortly after manufacture, the mixture has a sufficiently low viscosity to completely wet a filler. The Viscoaitä-fc is still large enough to moisten a reinforcing material such as glass fiber ο Then the new, potentiated polyester 6F-Mg (OH) ₂ -mixture is very viecos and enables easy handling, easy laying and a Convenient use for the direct Giesaverprocesso Dsduroh that one obtains these liochvi.acos thickened polyester faster, men can save both "in addition to costs during the production of eaten articles-_

£ 8 iat not known »before di.ese ü'oerraschenc: ^ YissTsit-äts · - Increase in the thickened l'olyeeterharscn bsiiuato. ate that phj'sikalischc phenomena such as colloidal effects oö2i · öelli.eru.ßg, su unusual Viscositätseigenschfift de..? · * thickened polyester overall ^ of the present invention contribute Lvlbi grounds · kair <ie üixci "Zung of Mg (OH) g nit the öarbo :: yG-rn- »pfc η eggs · polyester: '; cause a network effect (. where mc.η 5ί? ίΐη one; Polyt sttr with a higher molecular weight: '. cht v.-i & iniolgec - ..' ü ~ o : v-icl: -in-: i higher Viacosity is preserved "

BATH

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B e _M. i game 1

A Mg (OH) ₂ potentiator mixture according to the present invention is mixed with a polyester resin, Polylite 8000, using a Leboratorium stirrer operating at 5000 revolutions per minute phthalic anhydride, composed Grlykol a * and styrene maleic anhydride "are used as potentiating 0.75 parts of water per 100 parts of the resin" the concentration of Mg (OH) ₂ is 1.4 percent by _a # · the water may be in the polyester resin prior to addition of the Mg (OH) ₂ are dispersed or is added together with the Mg (OH) _2, and this combination is then mixed with the resin <> For the sake of simplicity one can, the Mg (OH) ₂ in a non-reactive support material as in a plasticizer, disperse before adding it to the polyester, but idea is niöht essential as Mg (OH) ₂ was Marino "H1241 used that twice in a H ~ 1-Mikrozerkleinerer was ground at 9600 revolutions per minute through a 0.013 HoBo sieve.

Marinco H1241 is a white, odorless powder with a content of at least $ 95> M

The same polyether assembly as described above is produced again, but v.'i rd 'zoin Wa.ec; he here ver

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turns.

Both polyester compositions comprising a containing Mg (OH) ₂ "of water and the other containing only Mg (OH) _2, is allowed to stand at ambient temperature and measures the Visoosität at equal intervals by means of a Brookfielä-Viacosimeterso This gives the following results:

TABLE I.

9 9 100 10 140 10 220 10 420 13th 1020 30th

Hours Viscosity, poise, 25 ° 3 the mixing Mg (OH) ₂ -H ₂ O Mg (OH)

0 5 10

11 days

The considerably greater viscosity of the Mg (OH) ₂ polyester composition, which contains water as a potentiating agent, is clearly evident from the same composition without Y / asa ^ r, int

Example as Mg (OH) ₂ from Example 1 is added as a dispersion to Ütyrol

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to facilitate incorporation into the Polylite 8000 resin. A high speed stirrer, such as a "Cowles" dissolver, is used to make the dispersion. A small amount of terpene phenol-formaldehyde Harzée can be used to evaluate the tolerability dee magnesium hydroxide with the styrene to improve ₀ to the system, water is as potentiating hinzuο This system is just like that of Example 1 upon standing at room temperature more and more viscose

TABLE II

Quality structure of Mg (OH) ₂ Polylite 8000 H ₂ O Gew _o - # in Polylite resin Styrene 1.4 I. Phenol formaldehyde resin 0.75 Example 3 3.3 0.06

The potentiating agent, Mg (OH) ₂ , and the resin are mixed using a high speed propeller _{mixer α Ala Mg (OH) 2} is used Marinco H1241 The mixture; which contains the potentiating agent and the mixture containing only Mg ( OH) ₂ is allowed to stand at ambient temperature and

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44

■ eats the Viacositat. In Table III the thickening effect of mixtures containing glycerine or ethylene glycol as poten *
In comparison to a type containing only Ug (OH) ₂ , two parts of Marinco H and one part of the potentiating agent are used per 100 parts of the polyester resin.

TABLE III

Hare 100

Mg (OH) ₂ (Marinco)

Glycerin

Ethylene glycol

Yifcrin 156R · PE 464
(Kaugatuok Chem _o Co «) (Allied Chem, Co.)

1 Hour 1 16 * 'C 28 4th hours 26th ⁰ C 32 8th hours 26th ⁰ C 35 1 Day 24 ⁰ C 55 2 Days 24 ⁰ C 81 5 Days 22nd ⁰ O 364 8th Days 24 ⁰ G 308 U "Days 19th ° ö 980

BROOtFIHjCD YISOOSITY, cpg.

28 30 29 35 36 41 41 46

23 23 28 26th 31 26th 77 31 1β5 • 30 490 36 752 36 740 35

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Claims (1)

4bC ** ♦ ^A P ^ril ! 968 Pat «ο t a u b ν ν ü ο h e 1ö mixture with improved physical properties, characterized by a content of a polyester resin, Mg (OH) ₂ and an aliphatic monocarboxylic acid with up to 7 carbon atoms, a liquid polyol or water as a photoresisto 2ο mixture according to claim 1, characterized in that the polyester resin by reacting a precondensed linear poly » merisates and a monomeric polymerizable compound.mit Ethylenic bonds has been made. Mixture according to Claim 2, characterized by a content of a filler material. ο Misohung according to claim 2, characterized by a content from about 0.2 to 20% by weight of Mg (OH) ₂ and about 0.1 to 5.0% by weight of the potentiating agent. ο Mixture according to claim 4 »characterized by a content from about 5.0 to 15 wt. Mg (OH) ₂ toA about 0.1 to 5.0% of a potentiating agent, namely water, acetic acid, acrylic acid, propionic acid, glycerine, sorbitol or ethylethylene glycol, 109839/1674 «. 12 - 6. Mi & ohung naoh Anspruoh 5 »characterized! that the potential remedy is learer. 7 · Process for the production of a mixture according to claim 1 for the formation of a polyester resin with increased viscosity, characterized in that Mg (OH) ₂ and a potentiating agent are added to a polyether resin. 3. Process for increasing the viscosity of polyether resin compositions which can be polymerized by converting a precondensed linear foliariaate tea and a monomeric one! Connection • can be made with an ifethyleohen bond »daduroh kkeottftei without, dmmm about 0.2 to 20 wt.% Mg (OH) ₂ and as about 0.1 to 9.0 wt .- # ljole a aliphatisehen MKFT to 7 au Kohlenet of fat omen, a liquid * ", or" Mwer au Hara Zueamoenee-ixung are · ORIGINAL INSPECTED If