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High-strength microcrystal foaming fireproof thermal-insulation plate produced by using aeolian sand, and production process thereof

A technology of microcrystalline foaming, fire prevention and heat preservation, applied in the field of construction engineering materials, can solve the problems of compressive strength limit, limit the use range and safety of plates, and achieve the effect of increasing safety, service life and large application space.

Inactive Publication Date: 2015-07-22
NINGXIA BLACK GOLD TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Due to the influence of the material's own characteristics, the compressive strength of the board has a certain limit, which limits the use range and safety of the board to a certain extent, which has become a bottleneck of the microcrystalline foam fireproof insulation board.

Method used

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  • High-strength microcrystal foaming fireproof thermal-insulation plate produced by using aeolian sand, and production process thereof
  • High-strength microcrystal foaming fireproof thermal-insulation plate produced by using aeolian sand, and production process thereof
  • High-strength microcrystal foaming fireproof thermal-insulation plate produced by using aeolian sand, and production process thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0039] as attached figure 1 As shown, a high-strength microcrystalline foamed fireproof and thermal insulation board produced by utilizing aeolian sand is formed by firing the pure microcrystalline board layer 1 and the microcrystalline foamed board layer 2 at one time; the pure microcrystalline board layer 1 is made of The surface of the board is apricot yellow and the internal structure is dense; the microcrystalline foamed board layer 2 is made of fine powder of aeolian sand, fine powder of red clay and fine powder of limestone It is evenly mixed and fired, and the interior is honeycomb structure, with steel mesh 3 lining in the middle, and the steel mesh 3 and the plate body are sintered together.

[0040] The ingredients of the high-strength microcrystalline foamed fireproof and thermal insulation board include 50-70% of aeolian sand, 20-30% of red clay, and 10-20% of limestone.

[0041] The steel mesh 3 is made of high-temperature-resistant steel mesh made of iron-clad...

Embodiment 2

[0044] as attached figure 2 As shown, a high-strength microcrystalline foam fireproof and thermal insulation board without decorative surface is produced according to the production process of using aeolian sand to produce microcrystalline foamed fireproof and thermal insulation materials. The microcrystalline foamed board layer 2 is made of aeolian sand microcrystalline Fine powder, red clay fine powder and limestone fine powder are evenly mixed and fired, and the interior is honeycomb structure, the middle is lined with a steel mesh 3, and the steel mesh 3 and the plate are integrally sintered together.

[0045] The ingredients of the high-strength microcrystalline foamed fireproof and thermal insulation board include 50-70% of aeolian sand, 20-30% of red clay, and 10-20% of limestone.

[0046] The thickness of the microcrystalline foam layer 2 is 3-600mm.

Embodiment 3

[0048] as attached image 3 As shown, in the high-strength microcrystalline foamed fireproof and heat-preserving board produced by the process of the present invention, the steel mesh 3 in the microcrystalline foamed mixed material layer 2 is made of iron-clad aluminum alloy high-temperature-resistant steel mesh, with a melting point greater than 1400 ° C and a well-shaped shape. , The reinforcement strength is ?3mm-?50mm.

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Abstract

The present invention relates to a high-strength inorganic foaming fireproof thermal-insulation wall material produced by using aeolian sand, and a production process thereof. The technical scheme comprises: preparing aeolian sand, red clay and limestone into fine powder, uniformly mixing according to a certain ratio, uniformly spreading the fine powder mixed material into a firing mold, loading the mold into a high-strength fireproof steel mesh in an inner-fixation manner, arranging in the middle of the fine powder mixed material, and carrying out high temperature kiln firing to achieve the integrated firing cooling molding of the mixed material and the fireproof steel mesh in one time. The beneficial effects comprise that: the whole support construction strength of the plate can be adjusted and enhanced through the strength of the steel mesh arranged in the middle of the plate, such that the plate can provide the large application space in the project while the safety and the service life of the building plate in the use process can be increased.

Description

technical field [0001] The invention relates to the field of building engineering materials, in particular to a high-strength inorganic foaming fire-proof and heat-retaining wall material produced by utilizing aeolian sand and a production process thereof. Background technique [0002] The main component of aeolian sand is silica, which is a building material that can be smelted. After research and practice, using aeolian sand can not only produce artificial microcrystalline boards, but also can be mixed with other auxiliary materials to produce foamed boards with high compressive strength, no slag falling, no fragility, and excellent fireproof and thermal insulation properties. It is of great economic value in the construction of building walls. [0003] The currently produced microcrystalline foam fireproof and thermal insulation panels can be used in the construction of exterior walls of multi-storey buildings and small high-rise buildings according to the compressive ...

Claims

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Application Information

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IPC IPC(8): C04B38/00C04B35/76C04B35/622
Inventor 黑建忠黑小军
Owner NINGXIA BLACK GOLD TECH CO LTD
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