Method for utilizing solid waste for preparing light-weight heat-insulating wall material
A solid waste and thermal insulation wall technology, which is applied in the field of waste resource utilization, can solve the problems of high cost and poor performance, and achieve the effect of reducing power consumption of grinding, reducing product cost, and benefiting environmental protection
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Embodiment 1
[0037] The raw materials used to prepare the dry basis are according to mass percentage: 53.3% of copper tailings, 5% of gold tailings, and 41.7% of chromium slag, and the raw materials are dried until the moisture content is lower than 2wt%. The addition amount of the composite expansion agent is 0.25% of the dry basis mass, the addition amount of the composite dispersant is 0.15% of the dry basis mass, and each raw material is accurately weighed. The weighed raw materials are placed in a ceramic ball mill, the material-to-ball ratio of the ball mill is 1:4, the mixture is mixed for 4 hours, and the particle size of the mill is <75um.
[0038] Put the prepared powder into a refractory mold covered with high-temperature paper, the thickness of the pavement is 60mm, put the mold with the powder on the kiln car, and heat up to 1190°C at a heating rate of 5°C / min in the tunnel kiln , after heat preservation for 1h 20min, cool in the kiln at 8°C / min to 850min, then at 0.5°C / min to...
Embodiment 2
[0043] The mass percentages of raw materials used for preparing the dry basis are: 65.2% of copper tailings, 4.5% of gold tailings, and 30.3% of chrome slag, and the raw materials are dried to a moisture content of <2%. The addition amount of the composite expansion agent is 0.30wt%, the addition amount of the composite dispersant is 0.3% of the dry weight, and each raw material is accurately weighed. The temperature was raised to 1180° C. at a heating rate of 6° C. / min, and kept for 1 h 20 min. The rest of the steps were the same as in Example 1. The performance data of the prepared foam ceramic light-weight thermal insulation material are shown in Table 2 below:
[0044] Table 2 Properties of Foam Ceramic Lightweight Thermal Insulation Material
[0045]
Embodiment 3
[0047] The mass percentage of raw materials used for preparing the dry basis: 70.5% of copper tailings, 8.5% of gold tailings, and 21% of chromium slag, and the raw materials are dried to a moisture content of <2%. The addition amount of the composite expansion agent is 0.40wt%, the addition amount of the composite dispersant is 0.5% of the dry weight, and each raw material is accurately weighed. The temperature was raised to 1160° C. at a heating rate of 5° C. / min, and kept for 1.5 hours. The rest of the steps were the same as in Example 1. The performance data of the prepared foam ceramic light-weight thermal insulation material are shown in Table 3 below:
[0048] Table 3 Properties of Foam Ceramic Lightweight Thermal Insulation Material
[0049]
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