Production of fireproof door filling material by using industrial waste material of metal door production and preparation method thereof
A technology of industrial waste and fire doors, which is applied in the field of lightweight foam materials, can solve problems such as poor sound absorption and sound insulation, poor heat insulation performance, large human body damage, and easy to be affected by moisture, so as to improve corporate and social benefits and reduce production. Cost, the effect of reducing environmental pollution
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[0047] The preparation method of described fire door filler, it comprises the steps:
[0048] (1), according to the above weight ratio and order, magnesium oxide, metal phosphating waste residue precipitated, water repellent, water reducer, magnesium sulfate, transfer waste paper are added to the mixer and mixed, and the phosphating waste water is added to dilute to Thick base slurry; at the same time, the foaming agent is made into foam slurry;
[0049] (2) Add the foam slurry to the thick base slurry in a ratio of 4 to 15 times the volume, and then perform secondary stirring to form a homogeneous foam slurry;
[0050] (3), pouring the slurry into the mold to solidify and form;
[0051] (4) After demoulding, it is naturally cured for 3 to 10 days under normal temperature and pressure to become a finished product.
[0052] The phosphating wastewater contains phosphate molecules.
Embodiment 1
[0053] Embodiment 1: the present embodiment is 200kg / m by bulk density 3 Prepare, wherein 100kg of magnesium oxide, 50kg of anhydrous magnesium sulfate, 23kg of waste residue precipitated after metal phosphating treatment, 15kg of transfer waste paper, 5.5kg of waterproofing agent, 6kg of water reducing agent, and 0.5kg of foaming agent, as described above The preparation method is to add 80kg of phosphating treatment wastewater and dilute it into a thick base slurry, then add foam slurry with a foam diameter of ≤1mm and an amount of 13 to 15 times that of the thick base slurry for secondary stirring, and make 1970mm×780mm×50mm of plates. Compressive strength 1.40Mpa, flexural strength 0.87Mpa.
Embodiment 2
[0054] Embodiment 2: the present embodiment is 300kg / m by bulk density 3 Prepared, wherein 150kg of magnesium oxide, 75kg of anhydrous magnesium sulfate, 34.5kg of waste residue precipitated after metal phosphating treatment, 22.5kg of transfer waste paper, 8.6kg of waterproofing agent, 9kg of water reducing agent, and 0.4kg of foaming agent, according to the above In the preparation method, 120 kg of phosphating wastewater is added to dilute it into a thick base slurry, and then the foam slurry with a foam diameter of ≤ 1 mm and an amount of 9 to 11 times that of the thick base slurry is added for secondary stirring to make a 1970mm×780mm ×50mm plate. Compressive strength 1.84Mpa, flexural strength 1.20Mpa.
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