Anti-electrostatic material used in ultrahigh voltage environment and preparation method of anti-electrostatic material

An ultra-high voltage, anti-static technology, applied in the field of chemical materials, can solve problems such as potential safety hazards, static induction electric shocks on metal component operating tables, etc., and achieve the effects of preventing oxidation, superior chemical resistance and heat resistance, and preventing ionized dust from adhering

Active Publication Date: 2018-11-20
河南豫昌电力科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Although this voltage will not cause harm to the human body, every electrostatic shock will cause psychological shadows on the staff, and there are certain potential safety hazards
Therefore, it is very important to develop an anti-static material and its preparation method for ultra-high voltage environment, so as to solve the problem of electrostatic induction electric shock on the metal component operating table under the voltage level environment of 500kV and above, and provide a good working environment for maintenance personnel. the meaning of

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0031] An antistatic material used in an ultra-high voltage environment in this embodiment, the mass fraction of each raw material is: 12.05% epoxy resin E44, 17.25% epoxy resin E51, 4.03% quaternary ammonium salt type antistatic agent, 4.16% polystyrene Amide 350A, 7.05% zinc oxide, 4.30% aluminum powder, 9.50% titanium dioxide, 1.80% tin oxide, 4.20% calcium carbonate, 5.30% conductive powder BC-C, 2.80% fluorosilicate, 2.1% fumed silica , 18.03% magnesium titanate, 4.25% 1,4-butanediol diglycidyl ether, 3.18% silane coupling agent KH560.

[0032] The particle diameters of zinc oxide, aluminum powder, titanium dioxide, tin oxide, calcium carbonate, conductive powder BC-C, fumed silica, magnesium titanate, and fluorosilicate described in this embodiment are 900 mesh.

[0033] The ultra-high voltage environment mentioned in this embodiment refers to a voltage of 500KV and above.

[0034] The fluorosilicate described in this embodiment is potassium fluorosilicate.

[0035] A ...

Embodiment 2

[0041] An antistatic material used in an ultrahigh-voltage environment in this embodiment, the mass fraction of each raw material is: 12.00% epoxy resin E44, 17.15% epoxy resin E51, 3.98% quaternary ammonium salt type antistatic agent, 4.26% poly Amide 350A, 6.95% zinc oxide, 4.40% aluminum powder, 9.40% titanium dioxide, 1.90% tin oxide, 4.30% calcium carbonate, 5.40% conductive powder BC-C, 2.70% fluorosilicate, 2.2% fumed silica , 17.93% magnesium titanate, 4.35% 1,4-butanediol diglycidyl ether, 3.08% silane coupling agent KH560.

[0042] The particle size of zinc oxide, aluminum powder, titanium dioxide, tin oxide, calcium carbonate, conductive powder BC-C, fumed silica, magnesium titanate, and fluorosilicate described in this embodiment is 800 mesh.

[0043] The ultra-high voltage environment mentioned in this embodiment refers to a voltage of 500KV and above.

[0044] The fluorosilicate described in this embodiment is potassium fluorosilicate.

[0045] The preparation ...

Embodiment 3

[0047] An antistatic material used in an ultra-high voltage environment in this embodiment, the mass fraction of each raw material is: 12.10% epoxy resin E44, 17.35% epoxy resin E51, 4.08% quaternary ammonium salt type antistatic agent, 4.06% poly Amide 350A, 7.15% zinc oxide, 4.20% aluminum powder, 9.60% titanium dioxide, 1.70% tin oxide, 4.10% calcium carbonate, 5.20% conductive powder BC-C, 2.90% fluorosilicate, 2.0% fumed silica , 18.13% magnesium titanate, 4.15% 1,4-butanediol diglycidyl ether, 3.28% silane coupling agent KH560.

[0048] The particle size of zinc oxide, aluminum powder, titanium dioxide, tin oxide, calcium carbonate, conductive powder BC-C, fumed silica, magnesium titanate, and fluorosilicate described in this embodiment is 1000 mesh.

[0049] The ultra-high voltage environment mentioned in this embodiment refers to a voltage of 500KV and above.

[0050] The fluorosilicate described in this embodiment is potassium fluorosilicate.

[0051] The preparatio...

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Abstract

The invention discloses an anti-electrostatic material used in an ultrahigh voltage environment and a preparation method of the anti-electrostatic material. The anti-electrostatic material comprises the following raw materials in percentage by mass: 12.0-12.15% of an epoxy resin E44, 17.`5-`7.35% of an epoxy resin E51, 3.98-4.08% of a quaternary ammonium salt anti-electrostatic agent, 4.06-4.26% of polyamide 350A, 6.95-7.15% of zinc oxide, 4.20-4.40% of aluminum powder, 9.40-9.60% of titanium dioxide, 1.70-1.90% of tin oxide, 4.10-4.30% of calcium carbonate, 5.20-5.40% of conductive powder BC-C, 2.70-2.90% of fluosilicate, 2.0-2.2% of fumed silica, 17.93-18.13% of magnesium titanate, 4.15-4.35% of 1,4-butanediol diglycidyl ether and 3.08-3.28% of a silane coupling agent KH560. The anti-electrostatic material is capable of not only isolating sensitive charges of metallic components, but also effectively preventing the metallic components from oxidation, has a function of preventing ionization dust adhesion, and has good application and development prospects.

Description

technical field [0001] The invention relates to the technical field of chemical materials, in particular to an antistatic material used in an ultra-high voltage environment and a preparation method thereof. Background technique [0002] At present, there are mainly two types of national standards for anti-static work, one is anti-static in the production and operation of electronic original device equipment, and the other is to prevent static electricity generated by friction from being transferred to electronic devices and causing damage to electronic devices. This type of anti-static The measures taken are mainly by reducing the resistivity of decorative materials, in which case the probability of people feeling electric shock is relatively low; the other is anti-static for petrochemical storage and transportation, which is to prevent the accumulation and discharge of static electricity generated by friction If sparks are generated and cause a fire, the measures taken for ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C09D163/02C09D163/00C09D7/61C09D7/63C09D5/24C09D7/20C09D5/10
CPCC08K2003/0812C08K2003/2231C08K2003/2241C08K2003/2296C08K2003/265C08K2201/001C08L2201/04C08L2205/025C08L2205/03C09D5/103C09D5/24C09D7/20C09D7/61C09D7/63C09D163/00C08L63/00C08L77/00C08K13/02C08K3/22C08K3/08C08K3/26C08K3/34C08K3/36C08K5/5435
Inventor 敬套栓汤建勇
Owner 河南豫昌电力科技有限公司
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