Composite thermal insulation mortar initiated by soluble phosphate and preparation method thereof
A technology of composite thermal insulation mortar and phosphate, which is applied in the field of thermal insulation materials to achieve the effects of improving fluidity, avoiding hollowing, and good thermal insulation
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Embodiment 1
[0043]A kind of composite insulation mortar initiated with soluble phosphate, comprising the components of the following mass fractions: 30 parts of caustic dolomite powder, soluble phosphate (H 3 PO 4 ) 1 part, 25 parts of fly ash, 3 parts of magnesium cement layer-EPS particles, the magnesium cement layer in the magnesium cement layer-EPS particles is magnesium oxychloride cement layer, 40 parts of magnesium salt salt crystal filled expanded perlite, magnesium salt salt The magnesium salt salt crystal in crystal-filled expanded perlite is magnesium chloride salt crystal, and 1 part of glass fiber;
[0044] Prepared by the following steps:
[0045] Step 1, dissolving magnesium chloride with water to form a saturated magnesium chloride solution;
[0046] Step 2, soak the expanded perlite in the magnesium chloride solution for 2 hours, then dry the water to form magnesium chloride salt crystals to fill the expanded perlite;
[0047] Step 3: Soak the EPS particles in magnesiu...
Embodiment 2
[0051] A kind of composite thermal insulation mortar initiated with soluble phosphate, comprising the following components in parts by mass: 35 parts of lightly burned magnesia powder, soluble phosphate (KH 2 PO 4 ) 1.5 parts, 20 parts of fly ash, 8 parts of magnesium cement layer-EPS particles, the magnesium cement layer in the magnesium cement layer-EPS particles is a magnesium sulfate cement layer, 35 parts of expanded perlite filled with magnesium salt crystals, and 35 parts of magnesium salt crystals The magnesium salt salt crystals in the expanded perlite are magnesium sulfate salt crystals, and 0.5 parts of glass fiber;
[0052] Prepared by:
[0053] Step 1, magnesium sulfate is dissolved in water to form a saturated magnesium sulfate solution;
[0054] Step 2, soak the expanded perlite in magnesium sulfate solution for 2 hours, then dry the water to form magnesium salt crystals to fill the expanded perlite, and the magnesium salt crystals are magnesium sulfate salt c...
Embodiment 3
[0059] Others are consistent with Examples 1 and 2, except that the magnesium cement layer-EPS particles in step 3 are prepared by the following method by utilizing the coating system:
[0060] The coating system includes a stirring device a, an immersion device b, a water removal device c, and a coating device d connected in sequence, wherein:
[0061] The stirring device a includes a stirring tank 1 and a stirring mechanism 2 arranged in the stirring tank 1, the top of the stirring tank 1 is provided with a feeding mechanism, and the discharge port 3 of the charging mechanism is located in the stirring tank 1 Close to the bottom position, the top of the stirring tank 1 is provided with a discharge port 13;
[0062] The immersion device b includes a immersion pool 4, the inlet of the immersion pool 4 communicates with the discharge port 13, and the immersion pool 4 is also provided with a discharge port 14;
[0063] The water removal device c includes a water removal tank 6 ...
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