Heat insulating and preserving ceramic composite plate with decorative properties

A technology for thermal insulation and composite panels, applied in the field of building materials, can solve the problems of integrity, durability, effectiveness, fire resistance, rainwater penetration resistance, insufficient physical-chemical stability, monotonous decorative effect of panels, and increased construction costs. and other problems, to achieve the effect of overcoming secondary deformation, saving energy consumption and reducing construction cost

Active Publication Date: 2013-01-16
FOSHAN RONGZHOU NO 2 BUILDING CERAMICS FACTORY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the EPS board or XPS board thin plaster external insulation system has been proved by a large number of engineering practices, and its integrity, durability, effectiveness, fire resistance, rainwater permeability, physical-chemical stability, etc. are insufficient, and the board The decoration effect is monotonous and single, and the decoration is poor, which cannot well meet people's requirements for the difference and uniqueness of decoration styles.
The traditional method is to add decorative panels outside the external insulation system, which greatly increases the construction cost

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0007] Heat insulation layer: 35% of low-temperature sand, 20% of polishing waste, 18% of dolomite, 17% of bentonite, 9.45% of diatomite, and 0.55% of ultra-fine foaming agent are mixed into the ball mill to wet Ball milling method, pass through 250 mesh sieve with remaining 0.8%, and use the spray tower to spray the mud for standby;

[0008] Decorative layer: use 40% low-temperature sandstone, 40% medium-temperature sandstone, 15% high-temperature sandstone, and 5% bentonite into the ball mill for wet ball milling. The remaining 1% is passed through a 250-mesh sieve, and the mud is sprayed with a spray tower. powder spare;

[0009] Then, the obtained dry powder is loaded in a ceramic sagger in the form of secondary distribution, the powder of the decorative layer is located at the lower part, the powder of the thermal insulation layer is located at the upper part, and the weight percentage of the powder of the decorative layer and the powder of the thermal insulation layer is...

Embodiment 2

[0011] Thermal insulation layer: 45% of low-temperature sand, 12% of polishing waste, 20% of dolomite, 9% of bentonite, 13.35% of diatomite, and 0.65% of ultra-fine foaming agent are mixed into the ball mill to wet Ball milling method, pass through 250 mesh sieve with remaining 0.8%, and use the spray tower to spray the mud for standby;

[0012] Decorative layer: use 35% low-temperature sandstone, 40% medium-temperature sandstone, 20% dolomite, 5% bentonite into the ball mill for wet ball milling, pass through a 250-mesh sieve and the remaining 0.8%, and spray the mud with a spray tower spare;

[0013] Then, the obtained dry powder is loaded in a ceramic sagger in the form of secondary distribution, the powder of the decorative layer is located at the lower part, the powder of the thermal insulation layer is located at the upper part, and the weight percentage of the powder of the decorative layer and the powder of the thermal insulation layer is 1 / 3. The material of the sagg...

Embodiment 3

[0015] Thermal insulation layer: 45% of low-temperature sand, 16% of polishing waste, 11% of dolomite, 6% of bentonite, 21.15% of diatomite, and 0.85% of ultra-fine foaming agent are mixed into the ball mill to wet Ball milling method, passing through 250 mesh sieve with remaining 0.7%, the mud is sprayed by spray tower for standby;

[0016] Decorative layer: use 40% low-temperature sandstone, 40% medium-temperature sandstone, 12% clay, 6% dolomite, and 2% bentonite into a ball mill for wet ball milling, and the remaining 0.5% through a 250-mesh sieve. Use the spray tower for powder spraying;

[0017] Then, the obtained dry powder is loaded in a ceramic sagger in the form of secondary distribution, the decorative layer powder is located at the lower part, the thermal insulation layer powder is located at the upper part, and the weight percentage of the decorative layer powder and the thermal insulation layer powder is 1 / 2, The material of the sagger is clay or high alumina to...

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Abstract

The invention discloses a method for producing a heat insulating and preserving ceramic composite plate with decorative properties, comprising the following steps: preparing the powder of a decorative layer; preparing the powder of a heat insulating and preserving layer; loading the powder in a ceramic sagger in the secondary distribution way; sintering in a roller kiln in one time without drying and moulding by a ceramic pressing machine; demoulding, polishing and finishing the decorative surface, and determining the thickness and shape of the heat insulating and preserving surface by mechanical dry cutting. By the joint reaction of the ultrafine foaming agent, the dolomite, the diatomaceous earth and the polishing slag at high temperature, the heat insulating and preserving plate filled with tiny closed pores can be formed. The product has high strength, strong penetration resistance and lower thermal conductivity than the existing ceramic heat preserving material and has the characteristics of low production energy consumption, good decorative effect and prominent heat preservation, heat insulation and sound insulation effects.

Description

technical field [0001] The invention relates to the technical field of building materials, in particular to ceramic composite plates with decoration and heat insulation effects. Background technique [0002] The total area of ​​various buildings in my country has reached more than 40 billion square meters, and building energy consumption accounts for about 27.5% of the total energy consumption in the country. Therefore, reducing building energy consumption is of great significance for us to achieve the goal of energy conservation and emission reduction. At present, the external wall thermal insulation technology system promoted and applied by the Ministry of Housing and Urban-Rural Development mainly includes polystyrene (hereinafter referred to as EPS) board thin plaster external thermal insulation system, extruded polystyrene (hereinafter referred to as XPS) board thin plaster external thermal insulation system 10 systems, rubber powder EPS granule thermal insulation slurr...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E04F13/075C04B33/13C04B35/00
Inventor 罗淑芬林志江邓坚勇
Owner FOSHAN RONGZHOU NO 2 BUILDING CERAMICS FACTORY
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