A kind of polyacrylate grafted vinyl chloride composite resin and preparation method thereof

Abstract

The invention relates to a polyacrylate grafted vinyl chloride composite resin and a preparation method thereof. The polyacrylate grafted vinyl chloride composite resin of the present invention is mainly prepared from the following components in parts by weight: 100 parts of vinyl chloride, polyvinyl chloride 2-15 parts of acrylate latex (based on solid content), 100-200 parts of deionized water, 0.08-0.16 parts of dispersant, 0.025-0.040 parts of oil-soluble initiator, and 0.006-0.009 parts of pH regulator; Acrylate latex is polymerized by adding or not adding acrylate to the system after the polymerization reaction of acrylate is completed at 65~95°C. The polyacrylate grafted vinyl chloride composite resin prepared by the invention has good impact resistance, short plasticizing time and excellent processing fluidity.

Description

technical field [0001] The invention relates to a composite resin, in particular to a polyacrylate grafted vinyl chloride composite resin and a preparation method thereof. Background technique [0002] Polyvinyl chloride resin is widely used due to its excellent mechanical properties, chemical resistance, flame retardancy and electrical insulation properties. It is one of the most widely used general-purpose plastics in the world, and its output is second only to polyethylene. Second, it has been widely used in various fields such as construction, chemical industry, electrical instruments, daily necessities, etc. However, since the polyvinyl chloride resin itself is sensitive to the notch, the notched impact strength is low (only 3.5kJ / m 2 About), poor weather resistance, poor processing performance and other shortcomings greatly limit its application in areas with high performance requirements. [0003] The toughening modification of polyvinyl chloride (PVC) is usually ac...

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Problems solved by technology

In recent years, in order to improve the compatibility between toughening modifiers and PVC, the microstructure modification and new toughening technology of PVC resin have been developed. The limitations of strong dependence on blending processing conditions, low toughening efficiency, and poor weather resistance, while solving the problems of poor fluidity of the macromolecular chains of pure graft copolymers, low modulus of materials, and inconsistencies in the impact resistance and rigid modulus of products, etc. Disadvantages of both

1. Polyacrylate latex particles with a core-shell structure grafted with vinyl chloride, for example: patents CN1053202, CN1510064A, and CN1884327A disclose the use of polyacrylates with a core-shell structure (the shell layer contains aromatic vinyl copolymers) grafted with vinyl chloride, Its advantage lies in improving the inhomogeneity of macro-mixing; the disadvantages of this method are: a, thick transition layer, large amount of acrylate used, low toughening efficiency; b, high grafting rate, poor processability; c, crosslinking If the density is too high, it is difficult to recycle the leftovers; d. Adding other monomers such as styrene divinylbenzene to the shell layer will result in poor weather resistance and yellowing during processing; e. The reaction process is complicated and the conditions are harsh

2. Polyvinyl chloride molecular chain grafted polyacrylate, for example: Japan Zhongyuan Chemical produces acrylate grafted polyvinyl chloride copolymer resin. The shortcomings of this method are: a. Compared with general PVC resin, the tensile strength and modulus of the copolymer resin Substantial drop; b copolymer resin has poor weather resistance; c, macromolecular chain branching degree is high, the entanglement structure is complex and serious, and the flow performance is poor

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