CN1386713A - High-strength low-radiation coated fireproof glass - Google Patents

Abstract

A high-strength low-radiation coated fireproof glass is prepared through preparing high-strength fireproof Cs-K glass (ref. CN 00118950.6) and spraying low-radiation indium tin oxide (ITO) film on its surface. It can be used for external surface of building.

Description

High-strength single-sheet low-radiation coated fireproof glass

The invention relates to the technical field of coated glass and fireproof glass, which is characterized in that glass is chemically sprayed in a tempering furnace to form an ITO film and a high-stress ion exchange layer, and is physically tempered at the same time to prepare composite glass with the functions of low-radiation coating and fireproof glass.

By containing K⁺、Cs⁺The salt solution is sprayed on the surface of the glass in a tempering furnace, and after the ion exchange reaction is finished, the glass is rapidly and uniformly air-cooled, so that the high-pressure stress is formed on the surface layer of the glass, and the glass has the functions of high strength and fire resistance. This method is discussed in invention 00118950.6.

The invention aims to provide a production method for spraying an ITO (Indium Tin Oxide) low-radiation film on glass in a tempering furnace on the basis of the prior art.

The scheme of the invention isThe method is completed by spraying an ITO low-radiation film on the basis of processing and producing the high-strength single-sheet cesium-potassium fireproof glass through pyrolysis spraying. Indium trichloride (InCl) is generally used for preparing ITO film glass₃) And tin tetrachloride (SnCl)₄). In a ratio of InCl₃∶SnCl₄Adding water and ammonium fluoride to prepare solution in a weight ratio of 93: 7; when the glass substrate is heated to 600-650 ℃, the solution is sprayed on the surface of the glass after being atomized by a spray gun, and the generated chlorine (Cl)₂) And recycling by adopting a corresponding recycling device. The chemical reaction that takes place by spraying is as follows:

the materials for forming the spray comprise: and indium and tin metal salts such as nitrate, acetate, chloride and acetylacetonate.

The solvent selected is water, ethanol, acetone, ethyl acetate, dichloromethane, etc., the inorganic metal compound is easy to dissolve in water and ethanol, and the organic metal compound is soluble in ethyl acetate and dichloromethane.

Because the thermal decomposition spraying of the ITO low-radiation film is carried out while the physical tempering and the chemical tempering are carried out on the glass, the glass simultaneously meets the functions of the low-radiation glass and the fireproof glass.

The novel high-strength monolithic low-emissivity coated fireproof glass can be directly used for building exterior walls, has the functions of energy conservation and fire prevention, and overcomes the defect that low-emissivity glass does not have fire prevention and fireproof glass does not have energy conservation.

Claims (6)

1. The invention relates to novel high-strength monolithic low-emissivity coated fireproof glass which is characterized in that an ITO low-emissivity film is sprayed again in the process of simultaneously carrying out physical and chemical toughening on monolithic glass.

2. The ITO low emissivity film as claimed in claim 1, wherein the ITO low emissivity film is formed by mixing metal salt solutions containing indium and tin.

3. As stated in claim 2, the material for forming the indium and tin metal salts is composed of nitrate, acetate, chloride and acetylacetone.

4. As described in claim 2, the solvent is water, ethanol, acetone, ethyl acetate, methylene chloride or the like.

5. Indium trichloride (InCl) according to claim 2₃) And tin tetrachloride (SnCl)₄) The weight percentage of (B) is 93: 7.

6. The ITO coated low-emissivity film as claimed in claim 1 is atomized and sprayed out by a spray gun.