SU576765A1 - Thermosetting composition - Google Patents

Abstract

THERMORACTIVE COMPOSITION, including polyvinyl chloride, oligomethyl acrylate and polymerization initiator, characterized in that, in order to increase the specific impact toughness while maintaining high heat resistance, the composition further comprises butadiene nitrile or chloroprene rubber in the following ratio of components, in terms of the following ratio of components, mac. 'oether acrylate 10-100 Butadiene nitrile rubber 5-50 Polymerization initiator • О, 5-3В (L

Description

SP

05 SL The invention relates to polyvinyl chloride based polymer compositions. The composition is intended for the manufacture of heat-resistant shock-resistant pipes, sheets, cable plastic, thermosets, molded and other products by extrusion, injection molding, presetting and rotational molding. A polymeric composition containing polyvinyl chloride and butadiene enitrile or chloroprene rubber is known. The introduction of rubber will make the specific impact strength of polyvinyl chloride, however, the heat resistance of these compositions is low. The known thermosetting composition containing polyvinyl chloride, oligoacrylate and polymerization initiator. Oligoethylacrylates improve the processability of polyvinyl chloride, improve heat resistance, but lower the specific impact strength. The purpose of the invention is to increase the specific toughness of the composition, while maintaining high heat resistance. This is achieved by adding a dienitrile or chloroprene rubber to the composition of the composition in the following ratio of components, wt.h .: Polyvinyl chloride 100 Oligoacrylate 10-100 Butadiene nitrile or chloroprene rubber 5 -50 Polymerization Initiator0, 5-3 Preferably, peroxide and sulfur-containing compounds are used as polymerization initiators, causing co-polymerization and vulcanization of oligo-polymers. measure and rubber, which leads to the formation of a joint three-dimensional network structure and contributes to a sharp increase in specific toughness. Dimethacrylate triethylene glycol (TGM-3), Oi, co-methacrylate- (bis-triethylene glycol) phthalate (MGF-) is used as an oligoether acrylate (OEA). 9), etc. The joint plasticizing effect of oligoester acrylates and rubbers reduces the processing temperature of the material to 20-100T; which greatly simplifies the process of molding products and prevents thermal destruction of polyvinyl chloride. Increasing the toughness of heat-resistant thermosetting material based on polyvinyl chloride (PVC) greatly extends its application area the possibility of obtaining products to which, besides the increased operating temperature, demands are made of high resistance to shock loads. In particular, heat-resistant impact-resistant sheets, pipes, thermosetting live films and other moldings, heat-resistant cable plastic with improved physicomechanical properties, as well as various molded products can be obtained from extruded compositions of this type. By adjusting the amount of rubber introduced, it is possible to obtain heat resistant materials that possess not only high impact toughness, but also the necessary elasticity. This opens up the possibility of obtaining heat-resistant materials and products from them: heat-resistant cable compound, as well as hoses and films. The use of liquid rubbers in some cases allows the compositions to be processed in a viscous state at room temperature. Such compositions can be used for rotational molding, casting, coating. In the composition, you can enter the stabilizers and accelerators of vulcanization of rubber. PRI m, e r 1. Composition, mac., H .: polyvinyl chloride suspension C-70 100J butadiene nitrile rubber SKN-25 5; oligoether acrylate TGM-3 50; dicumyl peroxide 0.5, captax (vulcanization accelerator) 0.5, Stabilizers, parts by weight: hydroquinone 0.05, lead carbonate 5. Example 2. Composition May, hours: polyvinyl chloride emulsion E-62P 100; Nairit chloroprene rubber A 30, oligoether acrylate TGM-3 50J di-tert-butyl peroxide 0.5 ,. captax 0.5, hydroquinone 0.05J lead carbonate 5.. Example 3, the composition of the composition, wt.h.; Polyvinyl emulsion emulsion E-66P 100; butadiene nitrile rubber SKN-40 50; oligoetherite lat lat MDF-1 50; dicumyl peroxide O, 5 captax 0.5, hydroquinone 0.05, carbonate lead 5. Samples for testing are prepared by the method of pressing. Pressing mode: temperature 160 + 3 ° Ci specific pressure of the press is not 5 kg / cm time of pressure at a pressure of 2 min / mm thick. The comparison table shows the properties of the known and proposed compositions. On the basis of the proposed composition, it is possible to develop impact-resistant 5 heat-resistant pipes and electrical insulating plastic compounds. Preliminary technical and economic data were obtained confirming the prospects for further development of these areas. It has been found that when replacing stainless steel pipes with pipes made of modified PVC, the economic effect is approximately 1.8 million rubles per 1000 tons of products. When applying an insulating coating of polymer-oligomeric materials, the economic effect according to preliminary estimates is approximately 1,750 rubles per 1 km of cable.

Properties of thermosetting compositions on

Composition: PVC 100 ma.h., rubber 10 ma.ch.

Composition: PVC 100 mac.,

OEA 50 mac., Initiator

0.5 ma.ch.

The proposed composition for example

one

50-55

65-70

30-35

100-105

10-20

150-160

20-26

103 polyvinyl chloride based

Claims (1)

THERMORACTIVE COMPOSITION, including polyvinyl chloride, oligoester acrylate and polymerization initiator, characterized in that, in order to increase the specific toughness while maintaining high heat resistance, the composition further comprises butadiene-nitripe or chloroprene rubber in the following ratio, wt.h .: Polyvinyl chloride100 Oli / ester acrylate 10-100 Nitrile butadiene rubber 5-50 0.5-3 Polymerization Initiator SU. <„, 5.76765 576765 2