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Preparation process of wear-resistant and corrosion-resistant anti-static material

A preparation process and anti-static technology, which is applied in the field of material processing, can solve the problems that cannot be achieved, shorten the service life of anti-static materials, increase wear-resistant and corrosion-resistant materials, and achieve good wear-resistant effects

Pending Publication Date: 2022-04-05
武汉鼎盛达净化科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] Aiming at the deficiencies of the prior art, the present invention provides a wear-resistant and corrosion-resistant anti-static material preparation process, which solves the problem that the existing anti-static materials have poor wear and corrosion resistance, because long-term use is easy to cause the surface of the anti-static material to be damaged. It is severely worn, which affects the normal use of anti-static materials. At the same time, when there are highly corrosive items in some working conditions, the surface of anti-static materials will be corroded and damaged and cannot be used normally. Wear-resistant and corrosion-resistant materials, so that anti-static materials have better wear-resistant and corrosion-resistant effects, can not achieve the purpose of achieving wear-resistant, corrosion-resistant and electrostatic protection and can be used for a long time, greatly shortening the service life of anti-static materials

Method used

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  • Preparation process of wear-resistant and corrosion-resistant anti-static material

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0025] S1. Ingredients: First, measure the required weight ratio of polypropylene, nylon 66, polystyrene, polytetrafluoroethylene, conductive fiber, glass fiber, nano-ATO slurry, polyether ester amide, wear-resistant Filler, conductive material, platinum fiber, compatibilizer, antioxidant and mold release agent, the raw materials of antistatic material include: 7 parts of polypropylene, 7 parts of nylon 66, 7 parts of polystyrene, polytetrafluoroethylene 7 parts of ethylene, 7 parts of conductive fiber, 4 parts of glass fiber, 7 parts of nano ATO slurry, 4 parts of polyether ester amide, 4 parts of wear-resistant filler, 4 parts of conductive material, 4 parts of platinum fiber, 4 parts of compatibilizer, 4 parts of antioxidant and 4 parts of release agent, the compatibilizer is POE maleic anhydride graft modifier, the conductive fiber is the composition of polypyrrole, polyphenylene sulfide and polyaniline, and the wear-resistant filler is calcium carbonate, The composition o...

Embodiment 2

[0030] S1. Ingredients: First, measure the required weight ratio of polypropylene, nylon 66, polystyrene, polytetrafluoroethylene, conductive fiber, glass fiber, nano-ATO slurry, polyether ester amide, wear-resistant Filler, conductive material, platinum fiber, compatibilizer, antioxidant and release agent, the raw materials of antistatic material include by weight: 5 parts of polypropylene, 5 parts of nylon 66, 5 parts of polystyrene, polytetrafluoroethylene 5 parts of vinyl, 5 parts of conductive fiber, 3 parts of glass fiber, 5 parts of nano ATO slurry, 3 parts of polyether ester amide, 3 parts of wear-resistant filler, 3 parts of conductive material, 3 parts of platinum fiber, 3 parts of compatibilizer, 3 parts of antioxidant and 3 parts of release agent, compatibilizer is tetrafluoroethylene perfluoromethyl vinyl ether copolymer, conductive fiber is polypyrrole, wear-resistant filler is calcium carbonate, conductive material is carbon black, anti-oxidation The agent is tr...

Embodiment 3

[0035] S1. Ingredients: First, measure the required weight ratio of polypropylene, nylon 66, polystyrene, polytetrafluoroethylene, conductive fiber, glass fiber, nano-ATO slurry, polyether ester amide, wear-resistant Filler, conductive material, platinum fiber, compatibilizer, antioxidant and release agent, the raw materials of antistatic material include by weight: 10 parts of polypropylene, 10 parts of nylon 66, 10 parts of polystyrene, polytetrafluoroethylene 10 parts of ethylene, 10 parts of conductive fiber, 5 parts of glass fiber, 10 parts of nano ATO slurry, 5 parts of polyether ester amide, 5 parts of wear-resistant filler, 5 parts of conductive material, 5 parts of platinum fiber, 5 parts of compatibilizer, 5 parts of antioxidant and 5 parts of release agent, the compatibilizer is acetylated triethyl citrate, the conductive fiber is polyaniline, the wear-resistant filler is mica powder, the conductive material in step S1 is carbon fiber, and the antioxidant is three O...

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Abstract

The invention discloses a preparation process of a wear-resistant and corrosion-resistant anti-static material, and the preparation process specifically comprises the following steps: S1, burdening, S2, crushing, S3, mixing, and S4, extrusion molding, and relates to the technical field of material processing. According to the preparation process of the wear-resistant and corrosion-resistant anti-static material, the wear-resistant and corrosion-resistant material is added into the anti-static material, so that the anti-static material has better wear-resistant and corrosion-resistant effects, and the purposes of wear resistance, corrosion resistance, electrostatic protection and long-term use are well achieved; the service life of the anti-static material is greatly prolonged, the anti-static material is good in abrasion resistance and corrosion resistance, the surface of the anti-static material is not prone to being seriously abraded even if the anti-static material is used for a long time, and therefore normal use of the anti-static material is guaranteed. And the surface is not easy to corrode and damage and can not be normally used.

Description

technical field [0001] The invention relates to the technical field of material processing, in particular to a preparation process of a wear-resistant and corrosion-resistant antistatic material. Background technique [0002] Static electricity is a charge that is at rest. Static electricity is formed when charges accumulate on an object or surface, and charges are divided into positive charges and negative charges, that is to say, static electricity is also divided into two types, namely positive static electricity and negative static electricity. Positive static electricity is formed when positive charges accumulate on an object, and negative static electricity is formed when negative charges accumulate on an object, but whether it is positive static electricity or negative static electricity, when an object with static electricity touches a zero-potential object (grounded) object) or an object with a potential difference with it, charge transfer will occur, which is the ...

Claims

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Application Information

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IPC IPC(8): C08L23/12C08L77/06C08L25/06C08L27/18C08L77/00C08L51/06C08L79/04C08K7/14C08K7/06C08K3/08C08K3/22
Inventor 吴高国
Owner 武汉鼎盛达净化科技有限公司