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Thermal insulation and fireproof decorative board and its preparation process

A preparation process and technology for decorative boards, which are applied in the field of building decoration materials, can solve problems such as insufficient performance and poor material stability, and achieve the effects of good thermal insulation effect, light weight and high strength

Inactive Publication Date: 2018-10-09
浙江树华新型建材有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] In order to overcome the above-mentioned shortcomings, the present invention designs a thermal insulation and fireproof decorative board and its preparation process, so as to solve the technical problems of insufficient performance and poor material stability of the existing similar decorative boards

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0017] Take 25kg of glass microspheres, 12kg of white carbon black, 4kg of magnesium chloride, 15kg of cement, 16kg of quicklime, 25kg of gypsum powder, 0.2kg of waterproofing agent, 0.01kg of air-entraining agent, and 2kg of heavy calcium, and mix the raw materials into a mixer Stir, stir and add water at the same time to make a mixed slurry; inject the mixed slurry into the corresponding mold, inject twice, after the first injection, it is compacted by the pressure plate, and put into the prefabricated fiber mesh layer, and the mixed slurry is injected again to Fill the mold; remove the mold after the mixed slurry is solidified, take out the molded body, and put it in an oven for heating and drying; after drying, take it out to cool at room temperature, and then polish the surface to make a thermal insulation and fireproof layer. Coating an adhesion promoter on the surface of the thermal insulation and fireproof layer, and then bonding and fixing the decorative layer with an ...

Embodiment 2

[0019] Take 20kg of glass microspheres, 14kg of white carbon black, 5kg of magnesium chloride, 20kg of cement, 20kg of quicklime, 25kg of gypsum powder, 0.2kg of waterproofing agent, 0.03kg of air-entraining agent, and 2kg of heavy calcium, and mix the raw materials into a mixer Stir, stir and add water at the same time to make a mixed slurry; inject the mixed slurry into the corresponding mold, inject twice, after the first injection, it is compacted by the pressure plate, and put into the prefabricated fiber mesh layer, and the mixed slurry is injected again to Fill the mold; remove the mold after the mixed slurry is solidified, take out the molded body, and put it in an oven for heating and drying; after drying, take it out to cool at room temperature, and then polish the surface to make a thermal insulation and fireproof layer. Coating an adhesion promoter on the surface of the thermal insulation and fireproof layer, and then bonding and fixing the decorative layer with an ...

Embodiment 3

[0021] Take 20kg of glass microspheres, 10kg of white carbon black, 4kg of magnesium chloride, 20kg of cement, 16kg of quicklime, 25kg of gypsum powder, 0.2kg of waterproofing agent, 0.01kg of air-entraining agent, and 2kg of heavy calcium, and mix the raw materials into a mixer Stir, stir and add water at the same time to make a mixed slurry; inject the mixed slurry into the corresponding mold, inject twice, after the first injection, it is compacted by the pressure plate, and put into the prefabricated fiber mesh layer, and the mixed slurry is injected again to Fill the mold; remove the mold after the mixed slurry is solidified, take out the molded body, and put it in an oven for heating and drying; after drying, take it out to cool at room temperature, and then polish the surface to make a thermal insulation and fireproof layer. Coating an adhesion promoter on the surface of the thermal insulation and fireproof layer, and then bonding and fixing the decorative layer with an ...

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PUM

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Abstract

The invention relates to a fireproof heat preservation decorative panel and a manufacturing technique thereof in the field of building materials. 100 parts of a fireproof heat preservation layer of the fireproof heat preservation decorative panel is prepared from, by mass, 20-25 parts of glass beads, 10-14 parts of white carbon black, 4-6 parts of magnesium chloride, 10-25 parts of cement, 16-20 parts of quick lime, 20-30 parts of land plaster, 0.2-0.5 part of a waterproof agent, 0.01-0.05 part of an air entraining agent and 2-3 parts of heavy calcium carbonate. The manufacturing technique comprises the steps that the raw materials are mixed according to the proportions, water is added, and the mixture is stirred to prepare mixed slurry; the mixed slurry is injected into a corresponding mould in twice, specifically, after the slurry is injected for the first time, the slurry is compacted with a pressing plate, a fiber screen layer is placed on the compacted slurry, and the slurry is injected again till the mould is filled with the slurry; the mould is removed after the mixed slurry is solidified, the formed body is taken out, heated and dried, the surface is ground to be smooth after drying and cooling are completed, and the fireproof heat preservation layer is obtained; and the fireproof heat preservation layer is fixed to a decorative layer in a bonded mode through an organic binding agent, and the fireproof heat preservation decorative panel with the good heat preservation and fireproofing effects is obtained.

Description

technical field [0001] The invention relates to a building decoration material, which is a thermal insulation and fireproof decorative board and a preparation process thereof. Background technique [0002] As the name suggests, the decorative board is a board used for decoration, which is mainly used for the decoration of building walls or various furniture surfaces. Due to the single material of traditional decorative panels, it is difficult to have good thermal insulation, fire prevention, sound insulation and other effects, and the decorative panels are prone to aging and discoloration, so they are gradually eliminated by the market. Most of the existing decorative panels are made of composite materials, which have good special properties such as heat preservation and fire prevention, and can meet the needs of daily consumers for home decoration. There are problems of insufficient performance and poor material stability. For this reason, it is necessary to improve exist...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): E04F13/075C04B28/00C04B14/06C04B14/22C04B14/28C04B22/06C04B22/12C04B22/14C04B103/30C04B103/65
CPCC04B28/00E04F13/0875C04B14/22C04B14/06C04B22/124C04B22/064C04B22/143C04B14/28C04B2103/65C04B2103/304
Inventor 杨宗兵
Owner 浙江树华新型建材有限公司