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Compression-resistant, anti-deformation and heat-preserving material for furniture production

A technology for thermal insulation materials and furniture, which is applied in the field of compression-resistant and deformation-resistant thermal insulation materials for furniture production. It can solve the problems of service performance and service life discount, general aging resistance performance, general thermal insulation effect, etc., and achieve excellent service performance and service life, fire prevention The effect of excellent performance and outstanding mechanical properties

Active Publication Date: 2020-05-01
ANHUI CHANGFA IND
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0003] Traditional thermal insulation materials are fiber materials such as cotton and hemp, which have the advantages of being close to nature, environmentally friendly and comfortable, but their disadvantages limit their further development and utilization in furniture thermal insulation products, mainly because they are difficult to form, easy to deform, and have a general thermal insulation effect. Easy to absorb water and mold, poor mechanical properties and other problems
In known studies, various types of resin foams are used as insulation materials for furniture production, but such materials have poor mechanical strength, are easily deformed during use, have general aging resistance, are easy to pulverize and deteriorate, and have long service life and service life. discount

Method used

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  • Compression-resistant, anti-deformation and heat-preserving material for furniture production

Examples

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Comparison scheme
Effect test

Embodiment 1

[0016] A pressure-resistant and deformation-resistant thermal insulation material for furniture production, which uses acrylonitrile and methacrylic acid as monomers, adds a prepared nucleation accelerator, and performs prepolymerization to obtain a prepolymer that is further foamed at a high temperature to obtain the pressure-resistant and heat-resistant insulation material. Modified insulation material;

[0017] Specifically, the preparation method of the thermal insulation material includes the following process steps:

[0018] S1: Preparation of nucleation accelerator: Weigh 13.5 millimolar manganese acetate tetrahydrate, 2.8 grams of sodium metaaluminate, and 5.5 grams of cobalt sulfate in a beaker, add 85 milliliters of deionized water to the beaker, and heat at 300 rpm The speed was continuously stirred for 20 minutes, and then 10 milliliters of citric acid solution with a mass concentration of 2.0% and 15 milliliters of ethylene glycol solution with a mass concentratio...

Embodiment 2

[0021] A pressure-resistant and deformation-resistant thermal insulation material for furniture production, which uses acrylonitrile and methacrylic acid as monomers, adds a prepared nucleation accelerator, and performs prepolymerization to obtain a prepolymer that is further foamed at a high temperature to obtain the pressure-resistant and heat-resistant insulation material. Modified insulation material;

[0022] Specifically, the preparation method of the thermal insulation material includes the following process steps:

[0023] S1: Preparation of nucleation accelerator: Weigh 13.8 millimolar manganese acetate tetrahydrate, 2.9 grams of sodium metaaluminate, and 5.8 grams of cobalt sulfate in a beaker, add 88 milliliters of deionized water to the beaker, and heat at 320 rpm The speed was continuously stirred for 25 minutes, then 11 milliliters of citric acid solution with a mass concentration of 2.5% and 16 milliliters of ethylene glycol solution with a mass concentration of...

Embodiment 3

[0026] A pressure-resistant and deformation-resistant thermal insulation material for furniture production, which uses acrylonitrile and methacrylic acid as monomers, adds a prepared nucleation accelerator, and performs prepolymerization to obtain a prepolymer that is further foamed at a high temperature to obtain the pressure-resistant and heat-resistant insulation material. Modified insulation material;

[0027] Specifically, the preparation method of the thermal insulation material includes the following process steps:

[0028]S1: Preparation of nucleation accelerator: Weigh 14.0 millimolar manganese acetate tetrahydrate, 3.0 grams of sodium metaaluminate, and 6.0 grams of cobalt sulfate in a beaker, add 90 milliliters of deionized water to the beaker, and spin at 340 rpm The speed was continuously stirred for 30 minutes, then 12 milliliters of citric acid solution with a mass concentration of 3.0% and 18 milliliters of ethylene glycol solution with a mass concentration of ...

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Abstract

The invention relates to the technical field of research on performances of furniture materials, and discloses a compression-resistant, anti-deformation and heat-preserving material for furniture production. The compression-resistant, anti-deformation and heat-preserving material is prepared through the following steps: with acrylonitrile and methacrylic acid as monomers, adding a prepared nucleating accelerator into the acrylonitrile and the methacrylic acid, performing prepolymerization so as to obtain a prepolymer, and further performing high-temperature foaming so as to obtain the compression-resistant, anti-deformation and heat-preserving material. The prepared heat-preserving material has a heat conductivity coefficient of 0.018 to 0.020 w / mk, cannot be increased in heat conductivitycoefficient due to moisture absorption, has excellent aging resistance and mechanical strength, has excellent properties like light weight, insulation, shock resistance, compression resistance, corrosion resistance, water resistance, aging resistance and stable chemical properties, can be widely applied to furniture heat-preserving core layers, has excellent molding performance, and can well solve the problems of common heat-preserving performance and a plurality of processing and application defects for heat-preserving materials in the furniture field; the heat-preserving performance of thematerial is improved, and good effects in a plurality of aspects are achieved.

Description

technical field [0001] The invention belongs to the technical field of furniture material performance research, and in particular relates to a pressure-resistant and deformation-resistant thermal insulation material for furniture production. Background technique [0002] In recent years, with the improvement of people's living standards, furniture products have developed rapidly. Among them, thermal insulation furniture products are very popular among people. Using good thermal insulation technology and materials, combined with ergonomic features, to process and produce comfortable furniture products has become the current mainstream competition direction. [0003] Traditional thermal insulation materials are fiber materials such as cotton and hemp, which have the advantages of being close to nature, environmentally friendly and comfortable, but their disadvantages limit their further development and utilization in furniture thermal insulation products, mainly because they a...

Claims

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Application Information

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IPC IPC(8): C08L33/20C08K3/30C08J9/00C08F220/48C08F220/06C08F220/56
CPCC08J9/0066C08F220/48C08J2333/20C08F220/06C08F220/56
Inventor 张大昌
Owner ANHUI CHANGFA IND