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Radiation-resistant and flame-retardant nuclear power station cable insulating material and preparation method thereof

A technology for cables and insulating materials for nuclear power plants, applied in rubber insulators, organic insulators, etc., can solve problems such as being unable to cope with harsh radiation environmental conditions, reducing the physical and mechanical properties of insulating materials, and affecting the normal operation of nuclear power plants, and achieving excellent radiation resistance. The effect of good tensile wear resistance and good mechanical properties

Inactive Publication Date: 2015-06-03
ANHUI SPECIAL CABLE GRP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

When a high-energy tube rupture accident occurs in a nuclear power plant, the cable will be subjected to the dual effects of high temperature and high-energy radiation, resulting in failure of the sheath material and affecting the normal operation of the nuclear power plant
[0003] Ordinary cables are not suitable for nuclear power plant cables due to their poor radiation resistance, and cannot cope with harsh radiation environmental conditions, resulting in short service life of the cables and potential safety hazards
At present, wires and cables improve the radiation resistance and other properties of the material by increasing the oxygen index of the insulating material of the sheath, or the material has shell forming properties, but the physical and mechanical properties of the insulating material are greatly reduced.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0016] A radiation-resistant and flame-retardant nuclear power plant cable insulation material proposed by the present invention, its raw materials include by weight: 97 parts of EPDM rubber, 32 parts of neoprene rubber, 58 parts of ABS resin, and 23 parts of ethylene-tetrafluoroethylene copolymer , 23 parts of barium sulfate, 11 parts of lead oxide, 24 parts of rare earth oxide, 14 parts of silicon nitride, 24 parts of nano-talc powder, 17 parts of hard clay, 26 parts of nano-magnesium hydroxide, aluminum-zirconium coupling agent TL-5 1.2 parts, 7 parts of 1,1,3,3-tetramethylbutyl hydroperoxide, 0.8 parts of sulfur powder, 1.1 parts of auxiliary cross-linking agent TAIC, 0.5 parts of auxiliary cross-linking agent HVA-2, 3.4 parts of sodium crotonate , 4.8 parts of magnesium oxide, 4 parts of triphenyl phosphate, 4 parts of zinc stearate, 3.7 parts of antioxidant.

[0017] The present invention also proposes a method for preparing the above-mentioned radiation-resistant and fl...

Embodiment 2

[0019] A radiation-resistant and flame-retardant nuclear power plant cable insulation material proposed by the present invention, its raw materials include by weight: 93 parts of EPDM rubber, 36 parts of neoprene rubber, 54 parts of ABS resin, and 27 parts of ethylene-tetrafluoroethylene copolymer , 17 parts of barium sulfate, 14 parts of lead oxide, 22 parts of rare earth oxide, 16 parts of silicon nitride, 21 parts of nano-talc powder, 23 parts of hard clay, 24 parts of nano-magnesium hydroxide, aluminum-zirconium coupling agent TL-5 1.4 parts, 5 parts of 1,1,3,3-tetramethylbutyl hydroperoxide, 1 part of sulfur powder, 0.9 parts of TAIC, 0.7 parts of HVA-2, 2.3 parts of sodium crotonate , 5.2 parts of magnesium oxide, 3 parts of triphenyl phosphate, 5 parts of zinc stearate, 3.2 parts of antioxidant.

[0020] The present invention also proposes a method for preparing the above-mentioned radiation-resistant and flame-retardant nuclear power plant cable insulating material. Pl...

Embodiment 3

[0022] A radiation-resistant and flame-retardant nuclear power plant cable insulating material proposed by the present invention, its raw materials include by weight: 90 parts of EPDM rubber, 40 parts of neoprene rubber, 50 parts of ABS resin, and 30 parts of ethylene-tetrafluoroethylene copolymer , 15 parts of barium sulfate, 15 parts of lead oxide, 20 parts of rare earth oxide, 20 parts of silicon nitride, 20 parts of nano-talc powder, 25 parts of hard clay, 20 parts of nano-magnesium hydroxide, aluminum-zirconium coupling agent TL-5 1.5 parts, 4 parts of 1,1,3,3-tetramethylbutyl hydroperoxide, 1.1 parts of sulfur powder, 0.8 parts of cross-linking agent TAIC, 0.8 parts of cross-linking agent HVA-2, 2 parts of sodium crotonate , 6 parts of magnesium oxide, 2 parts of triphenyl phosphate, 6 parts of zinc stearate, 3 parts of anti-aging agent.

[0023]The present invention also proposes a method for preparing the above-mentioned radiation-resistant and flame-retardant nuclear ...

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PUM

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Abstract

The invention discloses a radiation-resistant and flame-retardant nuclear power station cable insulating material. The radiation-resistant and flame-retardant nuclear power station cable insulating material comprises the following raw materials in parts by weight: 90-100 parts of an ethylene-propylene-diene monomer, 30-40 parts of neoprene, 50-60 parts of ABS resin, 20-30 parts of an ethylene-tetrafluoroethylene copolymer, 15-25 parts of barium sulfate, 10-15 parts of lead oxide, 20-25 parts of rare earth oxide, 10-20 parts of silicon nitride, 20-25 parts of nanotalcum powder, 15-25 parts of hard pottery clay, 20-30 parts of nanomagnesium hydroxide, 1-1.5 parts of a zircoaluminate coupling agent TL-5, 4-8 parts of 1, 1, 3, 3-tetramethylbutyl hydroperoxide, 0.5-1.1 parts of sulphur powder, 0.8-1.2 parts of an assistant crosslinking agent TAIC, 0.4-0.8 part of an assistant crosslinking agent HVA-2, 2-4 parts of sodium crotonate, 4-6 parts of magnesium oxide, 2-5 parts of triphenyl phosphate, 3-6 parts of zinc stearate and 3-4 parts of an antiager. The invention further discloses a preparation method of the radiation-resistant and flame-retardant nuclear power station cable insulating material.

Description

technical field [0001] The invention relates to the technical field of cable insulating materials, in particular to a radiation-resistant and flame-retardant nuclear power plant cable insulating material and a preparation method thereof. Background technique [0002] Nuclear power plant cables are an important electrical component of nuclear power plants, and the conditions in which they are used are relatively harsh. When a high-energy tube rupture accident occurs in a nuclear power plant, the cable will be subjected to the dual effects of high temperature and high-energy radiation, which will cause the sheath material to fail and affect the normal operation of the nuclear power plant. [0003] Ordinary cables are not suitable for nuclear power plant cables due to their poor radiation resistance, and cannot cope with harsh radiation environmental conditions, resulting in short service life of the cables and potential safety hazards. At present, wires and cables improve the...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C08L23/16C08L11/00C08L55/02C08L23/08C08K13/02C08K3/30C08K3/22C08K3/34C08K5/14C08K3/06C08K5/098H01B3/28
CPCC08L23/16C08L2201/02C08L2203/202C08L2205/02C08L2205/035H01B3/28C08L55/02C08L11/00C08L23/0892C08K13/02C08K2003/3045C08K2003/2234C08K2003/221C08K2003/2224C08K2003/222C08K3/34C08K5/14C08K3/06C08K5/098
Inventor 赖贵洲张冬冬何玮王翠玲
Owner ANHUI SPECIAL CABLE GRP
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