NL7900252A - Additive for polymer, esp. halogenated polymer - contg. stabilisers and lubricants, free from adsorbent and PVC - Google Patents

Abstract

An additive for polymers contains (a) is not 1 non-lubricating stabiliser, (b) >=1 lubricating stabiliser, (c) lubricants, and opt. (d) extenders, pigments, etc. The additive contains no adsorbents and/or PVC. The additive is solid at the temp. at which it is used. The additive is esp. used in polymers contg. halogen. Additives contg. adsorbents tend to be voluminous, giving difficulties in use. With additive contg. PVC, the amt. of PVC is about 5 x the amt. of the organo-Sn stabiliser; in addn. for each type of PVC to be treated, the additive must contain the same PVC.

Description

> -f ^ HAAGEN CHEMIE B.V., in Roermond.

Additive for polymers and process for the preparation of such an additive.

The invention relates to an additive for polymers, which comprises one or more non-sliding stabilizers, one or more sliding stabilizers, lubricants and optionally extenders, pigments and the like.

Halogen-containing polymers such as polyvinyl chloride (PVC) must be protected against the effects of heat and light by adding stabilizers. Until now, many inorganic lead, barium and cadmium compounds, in particular lead compounds, have been used for this. In the manufacture of articles from 10 hard (non-plasticizing) polyvinyl chloride or polyvinyl chloride copolymers, where extruding or framing requires a well-balanced system of non-sliding stabilizers, sliding stabilizers and lubricants, the inorganic lead, barium and cadmium stabilizers generally used in admixture with sliding stabilizers, lubricants and optionally excipients, pigments and the like. These mixtures generally consist of granules in which the lead, barium and cadmium stabilizers are enveloped by the sliding stabilizers and lubricants. Such products are described, for example, in Dutch patent 13 ^ 7 ^ Dutch patent 20 133,881 and Dutch patent application 67.1 ^ 077 (publication 15fc.2U2).

The lead, barium and / or cadmium compounds used in such granular additives are naturally toxic non-slip stabilizers to use non-toxic stabilizing compounds. The most common compounds of this type are organotin compounds, which are generally liquid.

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The use of such compounds presents difficulties in practice; the amount of organotin compound required as a stabilizer is relatively small, causing problems in measuring the desired amount of stabilizer. Second, with such small amounts of organotin compound, it is difficult to achieve even dispersion in the polymer mixture. An additional problem is that the manufacturers of articles of hard polyvinyl chloride and hard polyvinyl chloride copolymers have generally adapted their method and equipment to the use of solid components to be added, in particular the use of granular additives which are not Including stabilizers, sliding stabilizers, lubricants and optionally excipients, pigments and the like. Using a liquid organotin compound will require conversion of the equipment and modification of the entire technology.

Swedish patent application 73.13361 describes the preparation of an additive for polymers containing, as stabilizer, organic tin compounds and further lubricants and excipients, pigments and / or modifying agents. This granular additive is prepared by mixing extenders, lubricant waxes, stabilizing organotin compound, pigment and / or modifiers in a fast acting mixer at temperature between Ho and 50 ° C with an amount of polyvinyl chloride corresponding to 1 up to 6% of the total amount of polyvinyl chloride required for the final manufacture of articles. The amount of polyvinyl chloride used is in practice about five times the amount of the organic tin compound.

This is a major drawback, firstly because the amount of active substance in the additives is therefore small and secondly because, for each type of polyvinyl chloride used for the manufacture of articles, one needs a separate additive in which the same type of polyvinyl chloride was used in the preparation.

Dutch patent application 7811090 discloses 35 granular additives for polymers, which comprise one or 7900252 «I * 3 ** more organotin compounds which act as a non-sliding stabilizer, adsorbed in a finely divided inorganic adsorbent, one or more sliding stabilizers, lubricants and optionally excipients , pigments and the like.

The adsorbent here serves to bring the organic tin compounds into a form suitable for processing; it is used in a weight ratio to the tin compound (s) between 1: 1 and the ratio in which the adsorbent is saturated with the tin compound (s).

These products are universally usable, but have the drawback that they are very bulky due to the presence of the adsorbent, which can cause difficulties during use.

It has now been found that by a suitable choice of the raw materials and their mutual proportions, without the use of adsorbents or polyvinyl chloride, additives for polymers, and in particular halogen-containing polymers, can be obtained which contain one or more as non-sliding stabilizer-acting organic tin compounds, one or more sliding stabilizers, internal and external lubricants, extenders, pigments and / or modifiers.

In particular, it is essential that the amount of constituents which make the additives brittle is not too great. These constituents include the room temperature hard components with ... o slightly waxy properties and a melting point above 90 ° C, for example the lubricants with a melting point above 90 ° C and also the usual modifiers for the impact strength of articles which a polyvinyl chloride-containing mixture.

Practice shows that the amount of these components in the total mixture must be less than h5% by weight.

As organic tin compounds, the tin compounds known as stabilizers for polymers can be used in the additives according to the invention. In addition, it is particularly advantageous to also include an amount of epoxidized vegetable oil (in particular epoxidized soybean oil or epoxidized castor oil) which give a synergistic effect with many tin compounds.

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As sliding stabilizers, the granular additives of the invention may contain, for example, insoluble salts of long chain aliphatic fatty acids, for example, calcium stearate or zinc stearate. Calcium stearate in particular is particularly beneficial as a sliding stabilizer *

As lubricants, a range of metal-free organic compounds can be used ranging from waxes, long chain alcohols, especially alcohols with 12-22 C atoms, alkanes of a waxy consistency, for example natural paraffin fine or synthetic paraffin, esters of fatty acid with glycerol or with long-chain alcohols, for example spermaceti and also montane waxes, refined montane waxes, hardened oils, for example hardened castor oil, fatty acid amides, fatty acid anylolamides, fatty acid alkylamine esters, fatty amines, fatty ketones, anhydrides of carboxylic acids with 15 chain, alkyl phenols and long chain ethers such as, for example, distearyl ether or fatty alcohol or alkyl phenol polyglycol ethers.

As excipients can be included, for example, all kinds of clays, calcium carbonate, silicates, magnesium oxide; as pigments can be included titanium dioxide, zinc oxide, zinc sulfide and the like. As modifiers, a variety of substances can be included which improve the properties of the articles finally manufactured using the additive, such as flame retardants, for example, antimony oxide, ultraviolet absorbers, impact enhancers, vulcanizers, accelerators, and the like . By also including such substances in the additives, such agents can be easily and uniformly incorporated into the polymer mixture intended for the manufacture of articles.

The additives according to the invention can be prepared in a customary manner, by melting the lubricants, adding the other components to the melt with stirring, keeping the mixture in the melted state for 10 more minutes under stirring (at the mixture is preferably kept at 110 - 130 ° C for 25 - 35 min) and the mixture is then allowed to cool, for example 35 in a crystallization pan and to break up the resulting solid mass, 7S00252

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Or, preferably, by pouring the mixture onto the surface of a cooling trap, the temperature of which is kept below 20 ° C, in particular between 0 and 10 ° C, and covering the solid layer formed therein as flakes.

The results of a number of tests, in which the melt was formed in the above manner and the melt after being held at 120 ° C for 30 min. Was put on a cooling drum and the solid layer was peeled off the roller as flakes. in the following table.

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Data of the products used: 1. Tin tab A = mixture of Di-n-octyl-tin-bis (isooctylthioglycolate) 75% by weight and 5 mono-n-octyltin-tris (isooctylthioglycolate) 25% by weight liquid product.

2. Tin tab B = mixture of Di-n-butyltin bis (isooctylthioglycolate) 75% by weight and mono-n-butyltin tris (isooctylthioglycolate) 25% by weight. 10 3. Tin tab C = Tin tab B + organic phosphite.

Tin tab D = mixture of dimethyl tin bis (isooctyl thioglycolate) 15% and mono methyl tin tris (isooctyl thioglycolate) 25% by weight.

5. Tin tab E = Di (β-butyloxycarbonyl-ethyl) tin-bis (isooctylthioglycolate).

6. Tinstab F * Butyltin maleate.

7. Blendex U36 * Impact Resistance Additive from Borg-Warner.

8. Omyalite 95 T = chalk from Plüss-Stauffer A.G.

9. T - Og - R 70 = Titanium dioxide of Tiofine.

20 10. Epoxidized soybean oil = viscous liquid.

11. Harowax L1 = natural paraffin softening point + 35 ° C; from lubricant lubricant.

12. Harowax L2 = synthetic paraffin softening point + 110 ° C; 25 external lubricant.

13. Harowax L9 = Glycerol Monooleate; internal lubricant.

1U. Loxiol GH1 = Henkel internal and external lubricant. Drop point 1 * 3 - k5 ° C.

15. Loxiol G32 = waxy product; dropping point approx. 57 ° C; internal and external lubricant.

16. Loxiol GU1 = wax ester; softening point approx. 75 ° C; internal lubricant.

17. Radia 7502 = mixture of Oleofina lubricants.

o Mp .: 95-105 C works simultaneously as internal and external lubricant.

7 § 0 0 2 δ 2 \ 9 18. Wash C = vasky product; bis (fatty acid) amide, mp: 139-1M ° C.

19 · Was E = Hontaan Vasesters; dropping point: 76 - 82 ° C,

Internal and external lubricant.

7300252

Claims (10)

Additive for polymers, comprising one or more non-sliding stabilizers, one or more sliding stabilizers, lubricants and optionally excipients, pigments and the like, characterized in that it does not comprise adsorbents and / or polyvinyl chloride and the raw materials and their un-5 such proportions are chosen so that the total mixture is solid at the operating temperature. Additive according to claim 1, characterized in that the amount of lubricants with melting point above 90 ° C plus impact modifiers in the total mixture is less than b% by weight. Additive according to claim 1 or 2, characterized in that it has a nominal composition as stated in example I. Additive according to claim 1 or 2, characterized in that it has a nominal composition as stated in example III. Additive according to claim 1 or 2, characterized in that it has a nominal composition as stated in example V. Additive according to claim 1 or 2, characterized in that it has a nominal composition as stated in example VI. Additive according to claim 1 or 2, characterized in that it has a nominal composition as stated in example VII. Process for the preparation of a polymer additive according to any one of the preceding claims, characterized in that the lubricants are melted, the other components are added to the melt with stirring, the mixture is melted with stirring for an additional 10 minutes to 2 hours condition and then let the mixture cool and divide the resulting mass into bows. Process according to claim 8, characterized in that the mixture of lubricants and further ingredients is kept at 110-130 ° C with stirring for 25 to 35 minutes before cooling. 10. Method according to claim 8 or 9, characterized. The mixture is cooled by pouring it onto the surface of a cooling roller, the temperature of which is kept below 20 ° C, in particular between 0 and 10 ° C, to deposit the solid layer formed therein as flakes. ïdff 790 0 2 52