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Anti-crack energy storage material and preparation method thereof

A technology of energy storage materials and raw materials, which is applied in the field of anti-crack energy storage materials and its preparation, and can solve the problems of unreasonable formula composition and production process of energy storage materials, poor crack resistance of energy storage materials, and easy cracking of energy storage materials, etc. problems, to achieve superior performance, increased crack resistance, and long service life

Inactive Publication Date: 2020-04-28
NANJING ZHONGYING NEW NANOMATERIALS
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The formula composition and production process of the current energy storage materials are unreasonable, resulting in poor crack resistance of the energy storage materials. When the ambient temperature is low, high or subjected to a large force, the energy storage materials are prone to cracking. Thereby affecting its energy storage effect, the service life is short, and brings greater trouble to the user

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0024] An anti-crack energy storage material, the anti-crack energy storage material is made of the following raw materials in parts by weight: 55-65 parts of polyacrylamide, 18-22 parts of titanium dioxide, 12-16 parts of polypropylene fiber, phenyl- 14-18 parts of β-naphthylamine, 10-14 parts of N,N-diphenyl-p-phenylenediamine, 6-10 parts of N-phenyl N'-isopropyl-p-phenylenediamine, 4-6 parts of crosslinking agent 2-4 parts, 2-4 parts of dispersant, 2-4 parts of thickener, 2-4 parts of stabilizer, 4-6 parts of coupling agent.

[0025] Among them, the crosslinking agent is composed of N-methylolacrylamide, dicumyl peroxide and benzoyl peroxide in a mass ratio of 2:1:1; the dispersant is composed of sodium lauryl sulfate and hard Fatty amide is mixed in a mass ratio of 1:1; the thickener is made of bentonite, diatomaceous earth and hydroxyethyl cellulose in a mass ratio of 1:1:2; the stabilizer is made of sodium dihydrogen phosphate, phosphoric acid Disodium hydrogen and sodi...

Embodiment 2

[0033] An anti-crack energy storage material, which is made of the following raw materials in parts by weight: 60 parts of polyacrylamide, 20 parts of titanium dioxide, 14 parts of polypropylene fiber, and 16 parts of phenyl-β-naphthylamine , 12 parts of N, N-diphenyl-p-phenylenediamine, 8 parts of N-phenyl N'-isopropyl-p-phenylenediamine, 5 parts of crosslinking agent, 3 parts of dispersing agent, 3 parts of thickener, stable 3 parts of agent, 5 parts of coupling agent.

[0034] Among them, the crosslinking agent is composed of N-methylolacrylamide, dicumyl peroxide and benzoyl peroxide in a mass ratio of 2:1:1; the dispersant is composed of sodium lauryl sulfate and hard Fatty amide is mixed in a mass ratio of 1:1; the thickener is made of bentonite, diatomaceous earth and hydroxyethyl cellulose in a mass ratio of 1:1:2; the stabilizer is made of sodium dihydrogen phosphate, phosphoric acid Disodium hydrogen and sodium phosphate are mixed at a mass ratio of 2:3:1; the coupl...

Embodiment 3

[0042] An anti-crack energy storage material, the anti-crack energy storage material is made of the following raw materials in parts by weight: 55-65 parts of polyacrylamide, 18-22 parts of titanium dioxide, 12-16 parts of polypropylene fiber, phenyl- 14-18 parts of β-naphthylamine, 10-14 parts of N,N-diphenyl-p-phenylenediamine, 6-10 parts of N-phenyl N'-isopropyl-p-phenylenediamine, 4-6 parts of crosslinking agent 2-4 parts, 2-4 parts of dispersant, 2-4 parts of thickener, 2-4 parts of stabilizer, 4-6 parts of coupling agent.

[0043] Among them, the crosslinking agent is composed of N-methylolacrylamide, dicumyl peroxide and benzoyl peroxide in a mass ratio of 2:1:1; the dispersant is composed of sodium lauryl sulfate and hard Fatty amide is mixed in a mass ratio of 1:1; the thickener is made of bentonite, diatomaceous earth and hydroxyethyl cellulose in a mass ratio of 1:1:2; the stabilizer is made of sodium dihydrogen phosphate, phosphoric acid Disodium hydrogen and sodi...

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Abstract

The invention provides an anti-crack energy storage material and a preparation method thereof, and relates to the technical field of energy storage material production. The anti-crack energy storage material is prepared from the following raw materials in parts by weight: 55-65 parts of polyacrylamide, 18-22 parts of titanium dioxide, 12-16 parts of polypropylene fiber, 14-18 parts of phenyl-beta-naphthylamine, 10-14 parts of N,N-diphenyl p-phenylenediamine, 6-10 parts of N-phenyl N'-isopropyl p-phenylenediamine, 4-6 parts of a cross-linking agent, 2-4 parts of a dispersing agent, 2-4 parts ofa thickening agent, 2-4 parts of a stabilizer and 4 parts of a coupling agent. According to the invention, the defects of the prior art are overcome, and the continuity of the components in the energy storage material is effectively enhanced, so that the generation and development of the cracks of the energy storage material is effectively prevented, the generation of the cracks of the energy storage material is effectively prevented or delayed under static or dynamic conditions, the service life is long, and the material is worthy of popularization.

Description

technical field [0001] The invention relates to the technical field of production of energy storage materials, in particular to a crack-resistant energy storage material and a preparation method thereof. Background technique [0002] Phase change energy storage materials refer to a type of material that automatically absorbs or releases latent heat to the environment by using the phase state or structure change of the material itself within a certain temperature range, thereby achieving the regulation of the ambient temperature. The specific phase transition process is: when the ambient temperature is higher than the phase transition temperature, the material absorbs and stores heat to lower the ambient temperature; when the ambient temperature is lower than the phase transition temperature, the material releases the stored heat to increase the ambient temperature. For example, in winter, phase change energy storage materials absorb solar energy during the day and release he...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C08L33/26C08L23/12C08K3/22C08K5/18C08K3/34C08K7/26C08K13/04
CPCC08K2003/2241C08L33/26C08L2205/03C08L23/12C08K3/22C08K5/18C08K3/346C08K7/26C08K13/04
Inventor 苏杨王奇
Owner NANJING ZHONGYING NEW NANOMATERIALS
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