High-temperature resistance anti-skid sole material and preparation material thereof
A high temperature, room temperature technology, applied in soles, footwear, applications, etc., can solve the problems of high temperature resistance and insufficient wear resistance
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[0023] The preparation method of the high temperature resistant anti-skid sole material includes the following steps:
[0024] S1. Heat the natural rubber and nitrile rubber to 140-150℃, keep it for 20-40min, then add nano-montmorillonite, boron carbide, vulcanizing agent, dihydroxy polyester polyol, zinc oxide, carbon black, halogen-free resistance Mix the fuel and stearic acid evenly, heat up to 110-120℃, keep for 1-2h, stir at 1050-1350r / min for 20-40min, then cool to room temperature to obtain the base material;
[0025] S2. Mix EPDM rubber and phenolic resin evenly, heat up to 120-130℃, keep for 20-40min, then add modified glass fiber, polyester fiber, single-wall carbon nanotube, polyphenylene sulfide fiber and carbonization The silicon is mixed uniformly, stirred at 650-850r / min for 1-3h, and cooled to room temperature to obtain the modified material;
[0026] S3. Heat the base material to 130-140℃, then add the modified material and silane coupling agent KH-560 and mix well,...
Example Embodiment
[0028] Example 1
[0029] A high temperature resistant anti-skid sole material, in parts by weight, including the following raw materials: 38.4 parts of natural rubber, 25.3 parts of nitrile rubber, 17.3 parts of EPDM, 9.3 parts of phenolic resin, 5.7 parts of nano-montmorillonite, carbonized 3.4 parts of boron, 13.4 parts of vulcanizing agent, 0.72 parts of dihydroxy polyester polyol, 6.3 parts of zinc oxide, 13.2 parts of carbon black, 9.3 parts of halogen-free flame retardant, 0.84 parts of stearic acid, 13.1 parts of modified glass fiber, poly 5.7 parts of ester fibers, 4.1 parts of single-walled carbon nanotubes, 7.2 parts of polyphenylene sulfide fibers, 5.7 parts of silicon carbide, and 3.2 parts of silane coupling agent KH-560.
[0030] The modified glass fiber is prepared according to the following process: 16 parts of hard carbon black, 54 parts of glass fiber and 16 parts of natural rubber are mixed and melted by weight, and then 2.8 parts of sodium hexametaphosphate and...
Example Embodiment
[0035] Example 2
[0036] A high temperature resistant anti-skid sole material, in parts by weight, including the following raw materials: 35 parts of natural rubber, 30 parts of nitrile rubber, 12 parts of EPDM, 12 parts of phenolic resin, 4 parts of nano-montmorillonite, carbonized 5 parts of boron, 13 parts of vulcanizing agent, 0.8 parts of dihydroxy polyester polyol, 4 parts of zinc oxide, 15 parts of carbon black, 8.8 parts of halogen-free flame retardant, 0.9 parts of stearic acid, 10 parts of modified glass fiber, poly 9 parts of ester fibers, 3 parts of single-walled carbon nanotubes, 9 parts of polyphenylene sulfide fibers, 4 parts of silicon carbide, and KH-5604 parts of silane coupling agent.
[0037] The modified glass fiber is prepared according to the following process: 10 parts by weight of hard carbon black, 60 parts of glass fiber and 10 parts of natural rubber are mixed and melted, and then 5 parts of sodium hexametaphosphate and 4 parts of cetyl are added. Trim...
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