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A thermal insulation dry mix composition, a plastering method and a board made of the composition

A technology of composition and thermal insulation layer, which is applied in thermal insulation, building construction, solid waste management, etc., can solve the problems of increasing the thickness of the thermal insulation layer, shedding, flammability, etc., and achieve improved impact resistance, crack resistance, and The effect of reducing production costs

Inactive Publication Date: 2011-12-28
陈友增
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

During the construction and installation of the above materials, a steel frame needs to be pre-set on the outer wall of the building, and then the wall panels are fixed on the steel frame. This installation method is complicated and costly, which increases the production cost of the developer and the construction unit.
On the other hand, the raw material for the production of polystyrene is a by-product of the petroleum processing industry. It can be seen that the production of polystyrene materials requires the use of precious petroleum resources in the country, and the production process will also cause pollution to the environment.
In summary, polystyrene thermal insulation materials have the disadvantages of easy aging, cracking, toxicity, and flammability, and they do not meet the national requirements for green and energy-saving building materials.
In view of the above-mentioned shortcomings of thermal insulation materials containing polystyrene, people have conducted a lot of research on other alternative materials. At present, some buildings have used vitrified perlite materials. The main component of this material is silicon dioxide. Its main source is that the mineral deposits contained in the earth's crust are processed under high-temperature environment. Its shape is irregular and can be diamond-shaped, square or irregular. In addition to the cost, the material still has the disadvantage of being easy to loose, crack and fall off, and its thermal conductivity index cannot meet the thermal insulation requirements.

Method used

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  • A thermal insulation dry mix composition, a plastering method and a board made of the composition

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0036] A plastering method using thermal insulation dry mix composition as raw material, the steps comprising:

[0037] (1) It will consist of 15 kg of hollow glass beads (particle size 10 mesh), 0.3 kg of short glass fiber, 5 kg of raw gypsum powder, 1 kg of VAE latex powder, 0.3 kg of hydroxypropyl cellulose, 15 kg of cement and 0.1 kg of dry powder The thermal insulation dry-mixed composition composed of a waterproofing agent is uniformly mixed with water in a weight ratio of 1.25:1;

[0038] (2) Apply the mixture obtained in step (1) to the surface of the outer wall of the building to form the first insulation layer, with a thickness of 2 cm, and make it dry at intervals of 6 hours. Leave the pressing marks, apply the second layer of insulation again, its thickness is 2 cm, and let it dry at intervals of 24 hours;

[0039] (3) paving glass fiber mesh cloth on the outer surface of the second thermal insulation layer, while paving and pasting, smear the mixture that step (1...

Embodiment 2

[0042] A plastering method using thermal insulation dry mix composition as raw material, the steps comprising:

[0043] (1) It will consist of 40 kg of hollow glass beads (particle size 200 mesh), 0.3 kg of anti-crack fiber short filaments, 4 kg of raw gypsum powder, 3 kg of 0520 latex powder, 3 kg of hydroxypropyl cellulose, 40 kg of cement and 6 kg The thermal insulation dry-mix composition composed of wood fiber is uniformly mixed with water in a weight ratio of 2:3;

[0044] (2) Apply the mixture obtained in step (1) to the building ground or roof surface to form the first insulation layer, with a thickness of 2 cm, and make it dry at intervals of 24 hours. Without leaving traces of pressing, apply a second layer of insulation again, with a thickness of 2 cm, and allow it to dry at intervals of 72 hours;

[0045](3) paving glass fiber mesh cloth on the outer surface of the second thermal insulation layer, while paving and pasting, smear the mixture that step (1) obtains s...

Embodiment 3

[0048] A plastering method using thermal insulation dry mix composition as raw material, the steps comprising:

[0049] (1) It will consist of 100 kg of hollow glass beads (particle size 95 mesh), 2 kg of anti-crack fiber short filaments, 12 kg of raw gypsum powder, 3.5 kg of EA latex powder, 3 kg of hydroxypropyl cellulose, 100 kg of cement, 1 kg Wood fiber and 12 kilograms of dry powder water repellent composition are uniformly mixed with water in a weight ratio of 2:3;

[0050] (2) Apply the mixture obtained in step (1) to the surface of the outer wall of the pipeline to form the first insulation layer, with a thickness of 2 cm, and allow it to dry at intervals of 18 hours. Press the traces, apply a second layer of insulation again, its thickness is 2 cm, and allow to dry at intervals of 60 hours;

[0051] (3) paving glass fiber mesh cloth on the outer surface of the second thermal insulation layer, while paving and pasting, smear the mixture that step (1) obtains so that ...

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Abstract

The present invention relates to a heat insulation dry-mixing composition, a plastering method thereof and a board prepared by the composition. The heat insulation dry-mixing composition comprises the following components mixed according to a weight ratio: 15-2000 parts of hollow glass ball, 0.3-15 parts of short silk fiber, 5-200 parts of gypsum powder, 1-150 parts of emulsion powder, 0.3-150 parts of cellulose and 15-2000 parts of cement. The heat insulation dry-mixing composition of the invention has the advantages of low cost, excellent heat insulation effect, no aging, no cracking, no breaking-off and fire resistance. At the state of same thickness, the board prepared by the heat insulation dry-mixing composition according to the invention has better heat insulation effect compared with the heat insulation plate prepared by polystyrene material and perlite material. Furthermore the heat insulation dry-mixing composition and the board prepared by the composition can be directly adhibited and installed on the outer wall of building and have same lifetime with the building. The heat insulation dry-mixing composition is a novel product which gives attention to the convenient operation, low producing cost and environment-protecting energy-saving requirements.

Description

technical field [0001] The invention belongs to the technical field of thermal insulation materials, in particular to a thermal insulation dry mix composition, a plastering method and a board made of the composition. Background technique [0002] Thermal insulation panels are an indispensable material in the housing construction industry. According to national requirements, the external walls of buildings must be installed with thermal insulation panels. In the past, the thermal insulation materials commonly used in the construction industry contained polystyrene foam. For example, as disclosed in the Chinese patent titled "A Thermal Insulation Composite Wallboard" and the patent number is ZL200820087676.9, the insulation layer in the wallboard can be used Expandable polystyrene or extruded polystyrene. However, the polystyrene material itself is easy to age, crack and fall off, and the material contains the chemical component benzene, which itself has certain toxicity and ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C04B28/14E04F13/02E04B1/80C04B14/22
CPCC04B28/14C04B2111/28Y02W30/91C04B7/02C04B14/24C04B18/248C04B24/26
Inventor 陈友增
Owner 陈友增