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A method for producing energy-saving panels

A production method and board technology, applied in the production field of energy-saving boards, can solve the problems of poor energy saving, environmental protection and waste recycling, high production costs, etc., and achieve the effects of convenient use and installation, light weight and convenient construction

Active Publication Date: 2018-08-17
广西塔锡科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The task of the present invention is mainly to provide a production method of energy-saving boards for the problems of high production cost of building wall materials in China and poor energy-saving, environmental protection and waste-recycling capabilities.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0020] A method for producing an energy-saving board, comprising the steps of:

[0021] S1. Slurry preparation: dissolving magnesium chloride and magnesium sulfate with a mass ratio of 4:0.25 into a mixed solution with a concentration of 21 degrees Baume; getting 45 parts by weight of the mixed solution and 75 parts by weight of magnesium oxide and mixing together, stirring Obtain a gel; add 10 parts by weight of wood sawdust and 10 parts of fly ash portland cement to the obtained gel, and stir to obtain the required slurry;

[0022] S2. Base material preparation: mix the pulverized materials of polystyrene foam, waste cement bricks, and waste ceramics according to the weight ratio of 10:15:25 to obtain the base material;

[0023] S3. Forming: mix the slurry of S1 and the base material of S2 uniformly according to the weight ratio of 40:35, and press them into a blank plate through a plate forming flat machine;

[0024] S4. Curing and demoulding: send the above-mentioned base...

Embodiment 2

[0026] A method for producing an energy-saving board, comprising the steps of:

[0027] S1. Preparation of slurry: dissolving magnesium chloride and magnesium sulfate with a mass ratio of 5:0.4 into a mixed solution with a concentration of 23 Baume degrees; getting 48 parts by weight of the mixed solution and mixing the magnesium oxide with 88 parts by weight, stirring Obtain a gel; add 12 parts by weight of corn stalk powder and 15 parts of Portland cement to the resulting gel, and stir to obtain the desired slurry;

[0028] S2. Base material preparation: mix the pulverized materials of polystyrene foam, waste cement bricks, and waste ceramics according to the weight ratio of 20:18:30 to obtain the base material;

[0029] S3. Forming: mix the slurry of S1 and the base material of S2 uniformly according to the weight ratio of 55:42 and press them into a blank plate through a plate forming flat machine;

[0030] S4. Curing and demoulding: send the above-mentioned base plate to...

Embodiment 3

[0032] A method for producing an energy-saving board, comprising the steps of:

[0033] S1. Slurry preparation: dissolving magnesium chloride and magnesium sulfate with a mass ratio of 6:0.5 into a mixed solution with a concentration of 25 degrees Baume; getting 50 parts by weight of the mixed solution mixed with magnesia of 100 parts by weight, and stirring Obtain a gel body; add 15 parts by weight of biomass powder and 20 parts of Portland cement to the obtained gel body, and stir to obtain the required slurry;

[0034] S2. Base material preparation: mix the pulverized materials of polystyrene foam, waste cement bricks, and waste ceramics according to the weight ratio of 30:20:35 to obtain the base material;

[0035] S3. Forming: mix the slurry of S1 and the base material of S2 uniformly according to the weight ratio of 65:50, and press them into a blank plate by a plate forming flat machine;

[0036] S4. Curing and demoulding: send the above-mentioned base plate to the cur...

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Abstract

The invention belongs to the fields of sheet material processing, and energy saving and environment protection, and specifically relates to a production method of an energy saving sheet material. The production method comprises the following steps: step one, preparing slurry; step two, preparing a base material; step three, moulding; and step four, carrying out maintenance and demoulding. According to the production method, fly ash, waste cement bricks, and waste ceramic are taken as the raw materials, the cost is low, the wastes are utilized, the environment is protected; the produced sheet material has the advantages of thermal insulation performance, energy saving property, high anti-seismic performance, fireproof property, soundproof property, dampness resistance, long lasting effect, capability for nailing, hanging and hoisting, light weight, and convenience for construction, can be sawed, polished, drilled, and nailed, is capable of being spliced at will, can be transported at any time if not being fixed, and can be adhered with cement slurry. The manufacturing technology is the same as that of floor tiles. No special treatment or water soaking is needed, so that a large amount of labor and money is saved. At the same time, the energy saving sheet material obtained by the provided production method has a good thermal insulation effect.

Description

technical field [0001] The invention relates to the field of plate processing and energy saving and environmental protection, and specifically relates to a production method of an energy-saving plate. Background technique [0002] With the gradual enhancement of my country's economic strength and the continuous improvement of the level of science and technology, the government has paid more and more attention to and recognized the use of advanced energy-saving technologies and energy-saving materials in the field of construction to save energy. The national "Eleventh Five-Year Plan" clarifies the building energy-saving requirements and encourages the development of building energy-saving technologies. The new "civil building energy-saving design standards" require that the thermal insulation performance of newly designed heating residential buildings be 50% higher than that of buildings in 1991. At the same time , Renovate old buildings step by step. [0003] Building energ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C04B28/32C04B111/20C04B111/27C04B111/28C04B111/40C04B111/52
CPCC04B28/32C04B2111/2038C04B2111/27C04B2111/28C04B2111/40C04B2111/52C04B14/304C04B22/12C04B22/142C04B16/08C04B18/16C04B7/26C04B18/24C04B18/26
Inventor 徐庆富
Owner 广西塔锡科技有限公司
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