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Refractory insulating brick with solid waste concave-convex core column

A technology of thermal insulation brick and core column, which is applied in solid waste management, sustainable waste treatment, climate sustainability, etc., can solve the problems of flammability, high temperature sensitivity, environmental pollution on the construction site, etc., to ensure the permanent strength Effect

Inactive Publication Date: 2014-08-06
魏庆业
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, polymer materials, such as polystyrene, are highly sensitive to temperature, flammable, and produce toxic gases when burned, and the cost is higher than ordinary brick raw materials
[0005] Insulation bricks can integrate excellent thermal insulation effect into the wall while building the wall, but the traditional wall masonry needs cement and mortar as adhesives, requires high-level masons, and the construction site also brings environmental pollution. Pollution
In addition, the traditional building structure needs to be supported, which is labor-intensive, time-consuming and material-intensive

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0025] Prepare raw materials by following weight parts:

[0026] Urban construction waste 70%, aggregate 12%, cement 10%, gypsum 3%, water 5%

[0027] Prepare as follows:

[0028] 1. The urban construction waste, cement, aggregate, and gypsum are crushed and transported to the raw material warehouse through the belt conveyor;

[0029] 2. Mix various crushed raw materials in the mixing bin according to the above weight parts through an electronic scale;

[0030] 3. Add water into the mixing silo and stir;

[0031] 4. Pass the stirred formula material through the belt conveyor, and feed the material into the mold with an automatic weighing batcher;

[0032] 5. Adopt the process of uniform extrusion and exhaust on all sides, and use the conventional 1200-ton brick press in this field to shape the bricks;

[0033] 6. Grasp the formed bricks with a manipulator and put them on the conveying trolley, send them into a conventional autoclave in this field for 8 hours of steam curin...

Embodiment 2

[0036] Prepare raw materials by following weight parts:

[0037] Slag 75%, aggregate 7%, cement 8%, gypsum 6%, water 4%

[0038] Prepare as follows:

[0039] 1. The slag, cement, aggregate and gypsum are crushed and transported to the raw material bin through the belt conveyor;

[0040] 2. Mix various crushed raw materials in the mixing bin according to the above weight parts through an electronic scale;

[0041] 3. Add water into the mixing silo and stir;

[0042] 4. Pass the stirred formula material through the belt conveyor, and feed the material into the mold with an automatic weighing batcher;

[0043] 5. Adopt the process of uniform extrusion and exhaust on all sides, and use the conventional 1200-ton brick press in this field to shape the bricks;

[0044] 6. Grasp the formed bricks with a manipulator and put them on the conveying trolley, put them into a conventional autoclave in this field for 6 hours of steam curing, and then leave the autoclave. After several hou...

Embodiment 3

[0047] Prepare raw materials by following weight parts:

[0048] Weathered crushed stone 80%, aggregate 5%, cement 10%, gypsum 4%, water 1%

[0049] Prepare as follows:

[0050] 1. The weathered gravel, cement, aggregate, and gypsum are crushed and transported to the raw material warehouse through the belt conveyor;

[0051] 2. Mix various crushed raw materials in the mixing bin according to the above weight parts through an electronic scale;

[0052] 3. Add water into the mixing silo and stir;

[0053] 4. Pass the stirred formula material through the belt conveyor, and feed the material into the mold with an automatic weighing batcher;

[0054] 5. Adopt the process of uniform extrusion and exhaust on all sides, and use the conventional 1200-ton brick press in this field to shape the bricks;

[0055] 6. Grasp the shaped bricks with a manipulator and put them on the conveying trolley, send them into a conventional autoclave in this field for 7 hours of steam curing, and then ...

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Abstract

The invention discloses a refractory insulating brick with a solid waste concave-convex core column. According to the weight sum of raw materials, the refractory insulating brick comprises: 70-80wt% of main materials and the balance of auxiliary materials, wherein the main materials comprise magnesium oxide containing solid wastes, and the auxiliary materials comprise aggregates, cement, gypsum and water. The auxiliary materials can also comprise an additive frequently used in the field to improve the performance of a brick material. The moisture content of an insulating brick body is lower than 5%. The brick body is of a concave-convex embedded structure; two bosses at the obverse side of the brick body and a convex part at the side of the brick body are formed into a bulge connection structure; grooves in the back of the brick body and a concave part at the corresponding side of the brick body are formed into an embedded connection structure; a matching structure formed by the bosses at the obverse side and the grooves in the back is circular; the bosses can be embedded into the grooves; a matching structure formed by the concave part and the convex part which are located at the sides is trapezoidal; and the convex part can be embedded into the concave part.

Description

technical field [0001] The invention relates to a thermal insulation brick and a preparation method thereof, in particular to a concave-convex core column solid waste fireproof thermal insulation brick and a preparation method thereof. Background technique [0002] According to a survey in 2012, there are more than 20,000 tailings in my country, nearly 20 billion tons, and billions of tons of solid waste. Not only does it need to occupy a lot of land, but the solid waste is piled up in large quantities, polluting land, or cause disasters such as landslides and mudslides; in addition, the debris and tailings formed by the weathering of solid waste are either washed into the water by water, or penetrate into the groundwater after dissolution, or are blown into the atmosphere by the wind, polluting with water and air as the medium The environment will directly pollute the environment; therefore, the existence of solid waste not only threatens the safety of people's lives and prop...

Claims

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Application Information

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IPC IPC(8): C04B28/14C04B18/04
CPCY02W30/91
Inventor 魏庆业
Owner 魏庆业
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