Processing method of novel light energy-saving environmental-protection board
A technology of energy saving, environmental protection and processing method, which is applied in the direction of chemical instruments and methods, manufacturing tools, ceramic molding machines, etc., can solve the problems of poor energy saving, environmental protection and waste recycling, high production cost, etc., and achieve convenient construction, light weight and easy process control Effect
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Embodiment 1
[0032] First respectively crush the waste polystyrene foam, industrial production waste coal cinder or fly ash, and building demolition waste building residue; 10 kg of building demolition waste and old construction residues were mixed and stirred evenly to obtain a plate base material. Weigh 1 kg of polyvinyl alcohol, 0.2 kg of polyacrylic acid, 0.04 kg of methyl cellulose, 0.02 kg of lignin, 0.1 kg of boric acid, 0.04 kg of calcium sulfonate, and 0.02 kg of calcium chloride, mix them well and stir them evenly. After irradiating with Co-γ rays for 1 h, the sheet cementitious material was prepared. Mix the prepared plate base material and plate cementitious material with 30 kg of low-alkali sulfoaluminate cement and 15 kg of water, stir evenly, add to the prefabricated mold, stir and pressurize, keep for 24 hours, and demould to obtain the mold sheet. The resulting formed plate has low unit mass and low strength, which is good for processing.
Embodiment 2
[0034] First respectively pulverize waste polystyrene foam, industrial production waste cinder or fly ash, building demolition waste building residue, industrial production waste desulfurization gypsum; then weigh 30 kg of crushed waste polystyrene foam, industrial production waste cinder or 10 kg of fly ash, 10 kg of waste building residues from building demolition, and 5 kg of waste desulfurized gypsum from industrial production were mixed and stirred evenly to prepare the board base material. Weigh 5 kg of polyvinyl alcohol, 3 kg of polyacrylic acid, 0.2 kg of methyl cellulose, 0.5 kg of lignin, 1 kg of boric acid, 0.5 kg of calcium sulfonate, and 0.2 kg of calcium chloride, mix them well and stir them evenly. After irradiating with Co-γ rays for 5 hours, the sheet cementitious material was prepared. The preparation sequence of the sheet base material and the sheet cementitious material can be determined according to the actual operation situation, either the sheet base mat...
Embodiment 3
[0036] First respectively pulverize waste polystyrene foam, industrial production waste cinder or fly ash, building demolition waste building residue, industrial production waste desulfurization gypsum; then weigh 20 kg of crushed waste polystyrene foam, industrial production waste cinder or 15 kg of fly ash, 5 kg of waste building residues from building demolition, and 5 kg of waste desulfurized gypsum from industrial production were mixed and stirred evenly to obtain the board base material. Weigh 2 kg of polyvinyl alcohol, 1.2 kg of polyacrylic acid, 0.28 kg of methyl cellulose, 0.04 kg of lignin, 0.2 kg of boric acid, 0.28 kg of calcium sulfonate, and 0.16 kg of calcium chloride, mix them well and stir them evenly. Under the irradiation of Co-γ ray for 10h, the sheet cementitious material was prepared. Add 20 kg of water to the prepared board base material and 32 kg of low-alkali sulfoaluminate cement to prepare a mixed slurry; add 10 kg of water to the prepared board ceme...
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