Phosphate cement thermal insulation wall body material

A phosphate cement and thermal insulation wall technology, applied in the field of wall materials and phosphate cement thermal insulation wall materials, can solve the problems of increased workload, polluted environment, poor thermal insulation effect, etc. Good corrosion performance and early hardening effect

Inactive Publication Date: 2013-05-15
HOHAI UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Clay solid bricks consume high energy, threaten land resources, and pollute the environment; lime-sand bricks have a high density and poor thermal insulation effect; concrete hollow blocks have large deformation and are prone to cracking
Air-entrained concrete has a high water absorption rate, which affects the thermal insulation performance of the wall
The construction of thermal insulation materials outside the wall is cumbersome, which increases the workload and poorly maintains the structural integrity of the building
The above-mentioned shortcomings have limited the application and popularization of existing thermal insulation wall materials

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0017] The composition and proportion of the phosphate thermal insulation wall material in this embodiment are: 100 parts of ammonium dihydrogen phosphate; 400 parts of dead burnt magnesium; 48 parts of borax; 0.3 part of sodium lauryl sulfate; 0.1 part of gelatin; 130 parts of water Prepared in parts by weight. Mix dead-burned magnesium, ammonium dihydrogen phosphate and borax evenly according to the above ratio, add stirring water and stir fully in a mixer to obtain a phosphate cement base material. At the same time, mix sodium lauryl sulfate, gelatin and water in a high-speed mixer (rotation 285±10 r / min, revolution 125±10 r / min), then add the phosphate cement base material to the high-speed mixer and stir evenly, harden Finally, the phosphate insulation wall material is formed.

Embodiment 2

[0019] The composition and proportion of the phosphate thermal insulation wall material in this embodiment are: 100 parts of potassium dihydrogen phosphate; 200 parts of dead-burned magnesium; 60 parts of fly ash; 40 parts of coagulation regulator; sodium dodecylbenzenesulfonate 0.4 parts; 0.2 parts of gelatin; 140 parts of water, calculated in parts by weight. Mix dead-burned magnesium, potassium dihydrogen phosphate, borax, and fly ash evenly according to the above ratio, add stirring water and stir fully in a mixer to obtain a phosphate cement base material. At the same time, mix sodium dodecylbenzene sulfonate, gelatin and water in a high-speed mixer (rotation 285±10 r / min, revolution 125±10 r / min), then add the phosphate cement base material to the high-speed mixer and stir evenly , After hardening, it forms a phosphate insulation wall material.

Embodiment 3

[0021] The composition of the present embodiment phosphate insulation wall material and adopting ratio are: 100 parts of ammonium dihydrogen phosphate; 400 parts of dead burnt magnesium; 50 parts of fly ash; 50 parts of finely ground slag; 0.5 parts of sodium benzenesulfonate; 0.3 parts of gelatin; 150 parts of water, in parts by weight. Mix dead-burned magnesium, ammonium dihydrogen phosphate, borax, fly ash and finely ground slag evenly according to the above ratio, add stirring water and stir fully in a mixer to obtain a phosphate cement base material. At the same time, mix sodium dodecylbenzene sulfonate, gelatin and water in a high-speed mixer (rotation 285±10 r / min, revolution 125±10 r / min), then add the phosphate cement base material to the high-speed mixer and stir evenly , After hardening, it forms a phosphate insulation wall material.

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PUM

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Abstract

The phosphate cement thermal insulation wall material is characterized in that the components and the ratio of use are: 100 parts of phosphate; 100-400 parts of metal oxide; 5-100 parts of coagulation regulator; 0.3-3 parts of foaming agent; Agent: 0.1-2 parts; prepared from 15-300 parts of water, in parts by weight. The present invention is composed of metal oxide powder, phosphate, coagulation regulator, fly ash, finely ground slag, foaming agent and foam stabilizer; the base material used in the present invention is phosphate cement, which has early hardening and fast , high strength, stable volume, good corrosion resistance and so on. Adding fly ash and finely ground slag can reduce the engineering cost of thermal insulation wall materials, save costs, and achieve the purpose of recycling and environmental protection.

Description

technical field [0001] The invention relates to the technical field of building material engineering, in particular to a wall material, in particular to a phosphate cement thermal insulation wall material. technical background [0002] The development of wall materials is closely related to resources, energy, environment and building energy conservation. Clay solid bricks consume high energy, threaten land resources, and pollute the environment; lime-sand bricks have a high density and poor thermal insulation effect; concrete hollow blocks have large deformation and are prone to cracking. Air-entrained concrete has a high water absorption rate, which affects the thermal insulation performance of the wall. The construction of thermal insulation materials outside the wall is cumbersome, which increases the workload and poorly maintains the structural integrity of the building. Above-mentioned shortcoming has limited the application and popularization of existing thermal insu...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C04B38/02
CPCC04B28/34Y02W30/91C04B14/304C04B18/08C04B18/141C04B38/10C04B2103/48
Inventor 李中华张佳良苏超高赫飞蒋亚清承礼清田曼丽郭坤
Owner HOHAI UNIV
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