CN100398762C - Heat insulation tiles - Google Patents

Abstract

The present invention discloses a kind of heat-insulating tile. It is characterized by that it successively includes aluminium foil layer, glass fibre fabric layer and non-woven fabric layer. The described aluminium foil layer, glass fibre fabric layer and non-woven fabric are bonded together by means of mixture of magnesium oxide, magnesium chloride, modifying agent, sand and short fibre.

Description

A kind of thermal insulation tile

Technical field

The present invention relates to a kind of constructional materials, particularly a kind of thermal insulation tile.

Background technology

The present thermal insulation tile that uses, generally be to adopt cement or asbestos to make merely, because the surface of these thermal insulation tiles does not have good heat reflectivity, therefore solar radiation back heat major part on thermal insulation tile is absorbed by thermal insulation tile, and distribute by thermal insulation tile, thereby make thermal insulation tile play the effect of secondary heat source, thereby do not reach good effect of heat insulation, and the water resistance of these thermal insulation tiles is relatively poor.

Summary of the invention

In order to overcome the deficiencies in the prior art, the invention provides a kind of heat insulation, thermal insulation tile that water resistance is good.

The technical solution adopted for the present invention to solve the technical problems is:

A kind of thermal insulation tile is characterized in that it comprises aluminium foil layer, glass fiber layer of cloth and nonwoven layer successively, and the compound by magnesia, magnesium chloride, modifier, sand and short fiber between described aluminium foil layer, glass fiber layer of cloth and the nonwoven layer bonds together.

The weight percent content of the compound of above-mentioned magnesia, magnesium chloride, modifier, sand and short fiber is: magnesia and magnesium chloride 50%～70%, modifier 4%～6%, sand 20%～40% and short fiber 4%～6%.

Above-mentioned modifier can adopt one or both the mixture in ferrous sulfate, the tertiary sodium phosphate.

Thermal insulation tile of the present invention can adopt following method to make: the pulp of blunging after magnesia, magnesium chloride, modifier, sand and short fiber are mixed, then Lv Be, glass fabric and nonwoven are successively placed on the punching block, again slurry is imported wherein machine-shaping then, and dry getting final product.

The invention has the beneficial effects as follows: thermal insulation tile of the present invention comprises aluminium foil layer, glass fiber layer of cloth and nonwoven layer successively, because aluminium foil layer has good heat reflectivity, the sunlight major part that is radiated on the thermal insulation tile can be reflected away, therefore can significantly improve the heat-proof quality of thermal insulation tile; And Lv Be can produce one deck densification, stable oxide layer, thereby has improved acidproof, the alkaline-resisting and water resistance of thermal insulation tile; The compound of magnesia, magnesium chloride, modifier, sand and short fiber can further improve heat-proof quality of the present invention; The glass fiber layer of cloth can increase the intensity and the crushing resistance of thermal insulation tile; Nonwoven layer can make thermal insulation tile good looking appearance of the present invention.

The present invention is further described below in conjunction with embodiment.

The specific embodiment

Thermal insulation tile of the present invention includes aluminium foil layer, glass fiber layer of cloth and nonwoven layer successively, and the compound by magnesia, magnesium chloride, modifier, sand and short fiber between aluminium foil layer, glass fiber layer of cloth and nonwoven layer bonds together.

Embodiment 1

With the pulp of blunging after magnesia and 50 kilograms in magnesium chloride, 4 kilograms in modifier ferrous sulfate, 40 kilograms in sand and 6 kilograms of mixing of short fiber, then Lv Be, glass fabric and nonwoven are successively placed on the punching block, again slurry is imported wherein, machine-shaping then, and be dried and promptly can be made into thermal insulation tile of the present invention.

Embodiment 2

With the pulp of blunging after 5 kilograms in the mixture of magnesia and 60 kilograms in magnesium chloride, modifier tertiary sodium phosphate and ferrous sulfate, husky 30 kilograms and 5 kilograms of mixing of short fiber, then Lv Be, glass fabric and nonwoven are successively placed on the punching block, again slurry is imported wherein, machine-shaping then, and be dried and promptly can be made into thermal insulation tile of the present invention.

Embodiment 3

With the pulp of blunging after magnesia and 70 kilograms in magnesium chloride, 6 kilograms in modifier ferrous sulfate, 20 kilograms in sand and 4 kilograms of mixing of short fiber, then Lv Be, glass fabric and nonwoven are successively placed on the punching block, again slurry is imported wherein, machine-shaping then, and be dried and promptly can be made into thermal insulation tile of the present invention.

Claims (3)

1. thermal insulation tile, it is characterized in that it comprises aluminium foil layer, glass fiber layer of cloth and nonwoven layer successively, the compound by magnesia, magnesium chloride, modifier, sand and short fiber between described aluminium foil layer, glass fiber layer of cloth and the nonwoven layer bonds together.

2. a kind of thermal insulation tile according to claim 1 is characterized in that the weight percent content of the compound of magnesia, magnesium chloride, modifier, sand and short fiber is: magnesia and magnesium chloride 50%～70%, modifier 4%～6%, sand 20%～40% and short fiber 4%～6%.

3. a kind of thermal insulation tile according to claim 1 and 2 is characterized in that described modifier is one or both the mixture in ferrous sulfate, the tertiary sodium phosphate.