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High-temperature-resistant silane-crosslinked flame-retardation insulating material for automobile wires and preparation method thereof

A flame-retardant insulating material and silane cross-linking technology, applied in the direction of insulated conductors, insulated cables, cable/conductor manufacturing, etc., can solve the problems of high irradiation costs, increased transportation costs, etc., and achieve low cost and good wear resistance , The effect of simple extrusion process

Active Publication Date: 2014-09-10
JIANGSU DEWEI ADVANCED MATERIALS
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the irradiation cross-linked polyolefin material needs to be irradiated by irradiation equipment to be cross-linked after it is extruded into electric wires by a screw. There is no doubt that the high cost of irradiation and the cost of transportation for irradiation Increase the production cost of the enterprise

Method used

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  • High-temperature-resistant silane-crosslinked flame-retardation insulating material for automobile wires and preparation method thereof
  • High-temperature-resistant silane-crosslinked flame-retardation insulating material for automobile wires and preparation method thereof
  • High-temperature-resistant silane-crosslinked flame-retardation insulating material for automobile wires and preparation method thereof

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Experimental program
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Embodiment 1

[0030] This embodiment provides a high temperature resistant silane crosslinked insulating flame retardant material, its raw material formula is shown in Table 1, wherein:

[0031] The weight ratio of basic masterbatch, functional masterbatch and catalytic masterbatch is 100:25:5;

[0032] The melt index of high-density polyolefin resin is 0.3g / 10min; the melt index of low-density polyolefin resin is 4g / 10min;

[0033] Peroxide initiator is dicumyl peroxide; silane crosslinking agent is vinyltrimethoxysilane; antioxidant is antioxidant 1010 and antioxidant DLTP; flame retardant is zinc stannate, antimony trioxide and brominated flame retardant in a weight ratio of 1:0.25:0.5; the lubricant is a combination of microcrystalline paraffin and polyethylene wax (the weight content of microcrystalline paraffin is 60%); the antibacterial agent is vanillin; crosslinking The catalyst is dibutyltin dilaurate.

[0034] The preparation method of high temperature resistant silane crosslin...

Embodiment 2

[0040] This embodiment provides a high temperature resistant silane crosslinked insulating flame retardant material, its raw material formula is shown in Table 1, wherein:

[0041] The weight ratio of basic masterbatch, functional masterbatch and catalytic masterbatch is 100:30:8;

[0042] The melt index of high-density polyolefin resin is 1g / 10min; the melt index of low-density polyolefin resin is 4g / 10min;

[0043] The peroxide initiator is dicumyl peroxide; the silane crosslinking agent is vinyltrimethoxysilane; the antioxidant is antioxidant 1010 and antioxidant 1024; the flame retardant is zinc stannate, antimony trioxide and brominated flame retardant in a weight ratio of 1:0.8:1.5; the lubricant is a combination of microcrystalline paraffin and polyethylene wax (the weight content of microcrystalline paraffin is 80%); the antibacterial agent is vanillin; crosslinking The catalyst is dibutyltin dilaurate.

Embodiment 3

[0045] This embodiment provides a high temperature resistant silane crosslinked insulating flame retardant material, its raw material formula is shown in Table 1, wherein:

[0046] The weight ratio of basic masterbatch, functional masterbatch and catalytic masterbatch is 100:40:8;

[0047] The melt index of high-density polyolefin resin is 0.3g / 10min; the melt index of low-density polyolefin resin is 5g / 10min;

[0048] The peroxide initiator is dicumyl peroxide; the silane crosslinking agent is vinyltriethoxysilane; the antioxidant is antioxidant 1010 and antioxidant 1024; the flame retardant is zinc stannate, trioxide Antimony and bromine flame retardants are composed of a weight ratio of 1:0.6:1.2; the lubricant is a combination of microcrystalline paraffin and polyethylene wax (wherein the weight content of microcrystalline paraffin is 80%); the antibacterial agent is vanillin; The joint catalyst is stannous octoate.

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Abstract

The invention relates to a high-temperature-resistant silane-crosslinked flame-retardation insulating material for automobile wires. The material comprises basic master batches, functional master batches and catalysis master batches with a weight ratio of 100 : 25-40 : 5-10, wherein the basic master batches comprise high-density polyethylene resin, polyester elastomer, hydrogenated nitrile rubber, maleic anhydride monomer, a silane cross-linking agent, a peroxide initiator, an anti-oxidant and a lubricant; the functional master batches comprise the high-density polyethylene resin, the polyester elastomer, a fire retardant, a wear-resistant agent, a lubricant and a bacteria-resistant agent; and the catalysis master batches comprise the high-density polyethylene resin, low-density polyethylene resin, a crosslinking catalyst and the anti-oxidant. The high-temperature-resistant silane-crosslinked flame-retardation insulating material meets requirements of T3 and T4 standards of DINISO6722 T1 to T4, can be used as novel materials for the automobile wires, and is free of irradiation and low in technology cost.

Description

technical field [0001] The invention relates to a high temperature resistant flame retardant insulating material, in particular to a high temperature resistant flame retardant insulating material for automobile wires. Background technique [0002] According to the requirements of the application environment, automotive wires need to have properties such as heat resistance, flame retardancy, abrasion resistance, oil resistance, and mold resistance. Depending on the environment and location, automotive cables are classified into various temperature classes. At this stage, according to the development trend of the market and the needs of customers, PVC is generally used for insulation of wire products with a grade of 105°C and below, and radiation cross-linked polyolefin materials are used for insulation of automobile wires with a grade of above 105°C. Compared with PVC, the insulating properties, chemical properties, and heat resistance properties of polyolefin materials have...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C08L23/06C08L67/00C08L15/00C08L23/00C08K13/02C08K5/1539C08K3/22C08K3/38C08K3/24C08F255/02C08J3/24C08J3/22H01B7/295H01B13/24
Inventor 陈敏李小刚栾珊珊张丽本顾金云王兴宁戴红兵张建耀
Owner JIANGSU DEWEI ADVANCED MATERIALS
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