Green low-radiation reflective glass and preparation method therefor

A low-emissivity coating and glass technology, applied in the field of coated glass preparation method and the coated glass prepared by the method, can solve the problems of long production cycle, reduced service life of green coated glass, light control and energy saving effect, less production times, etc.

Active Publication Date: 2015-11-25
新福兴玻璃工业集团有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The process of producing coated glass by sol-gel method is simple and has good stability. The disadvantage is that the light transmittance of the product is too high and the decoration is poor.
[0007] At present, there are not many researches on the production of green coated glass. It solves the problem that the production of green coated glass needs to be purchased in advance in large quantities. The green glass produced by the interference agent ferric oxide is small, the production frequency is small, and the production cycle is long. It cannot

Method used

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  • Green low-radiation reflective glass and preparation method therefor
  • Green low-radiation reflective glass and preparation method therefor
  • Green low-radiation reflective glass and preparation method therefor

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0089] 1. Target sintering

[0090] In the first to eighth target chambers of the vacuum magnetron sputtering coating machine (Fujian Xinfuxing Glass Co., Ltd., model: XFXDM-01D), the pre-pressed targets are sintered in the first to eighth target chambers respectively. On the corresponding target positions, wherein: the target materials sintered on the target positions of the first and sixth target chambers are nickel-chromium alloys with a selective sintering purity of ≥99.7% and a density of ≥8.5g / cm 3 , a nickel-chromium alloy with a melting point of 1420°C, in which the Cr content is 20±1wt%, and the rest is Ni; the targets sintered on the target positions of the second, third, and eighth target chambers have a sintering purity of ≥99.5%, a density of ≥2.1g / cm 3 , a silicon-aluminum alloy target with a melting point of 580°C, in which the Al content is 8-12±2wt%, and the rest is Si; the target sintered on the target position of the fourth target chamber has a sintering pu...

Embodiment 2

[0122] 1. Target sintering

[0123] Same as Example 1.

[0124] 2. Clean the glass

[0125] Except that the deionized water temperature for cleaning is 35°C, the cleaning speed is 3m / min, and the drying temperature is 45°C, all the other are the same as in Example 1;

[0126] 3. Dehumidification and degassing treatment

[0127] Except for the first dehumidification and degassing treatment, the temperature is -135°C and the absolute pressure is 6.0×10 -2 mbar; the temperature for the second dehumidification and degassing treatment is 80°C, and the absolute pressure is 6.0×10 -3 mbar, the rest are the same as in Example 1.

[0128] 4. Coating treatment

[0129] Except that the process parameters of the coating treatment are different from those in Example 1, the rest are the same as in Example 1, wherein the process parameters of the coating treatment are shown in Table 2.

[0130] Table 2 embodiment 2 process parameter list of coating treatment

[0131]

[0132]

...

Embodiment 3

[0138] 1. Target sintering

[0139] Same as Example 1.

[0140] 2. Clean the glass

[0141] Except that the deionized water temperature for cleaning is 40°C, the cleaning speed is 5m / min, and the drying temperature is 55°C, all the other are the same as in Example 1;

[0142] 3. Dehumidification and degassing treatment

[0143] Except that the temperature of the first dehumidification and degassing treatment is -145°C, the temperature of the second dehumidification and degassing treatment is 100°C, and the absolute pressure is 3.0×10 -3 mbar, the rest are the same as in Example 1.

[0144] 4. Coating treatment

[0145] Except that the process parameters of the coating treatment are different from those of Example 1, the rest are the same as those of Example 1, wherein the process parameters of the coating treatment are shown in Table 3.

[0146] Table 3 embodiment 3 process parameter list of coating treatment

[0147]

[0148] 5. Buffering

[0149] Same as Example 1....

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Abstract

The invention discloses a green low-radiation reflective glass and a preparation method therefor. The green low-radiation reflective glass comprises a glass substrate, a first nickel-chromium alloy film, a second silicon-aluminium alloy film, a third zinc-aluminium alloy film, a fourth silver layer; a fifth nickel-chromium alloy film, a sixth zinc oxide-aluminium alloy film and a seventh silicon-aluminium alloy film which are sequentially and compactly laminated. The preparation method comprises the following steps: 1) sintering a target material; 2) pre-treating a glass material; and 3) carrying out coating treatment. According to the low-radiation reflective glass prepared by virtue of interference on light by various metal materials on a common colorless transparent float glass substrate, the reflection color of the glass in the sun is green and thus good decorating and energy-saving effects are achieved; the product can be processed in different places, so that the manufacturing cost of an enterprise is lowered; and the glass can be further manufactured to hollow glass, so that better light-controlling and energy-saving effects are achieved.

Description

technical field [0001] The invention relates to a method for preparing coated glass and the coated glass prepared by the method, in particular to a method for preparing low-radiation coated glass and the prepared low-radiation coated glass. Background technique [0002] Coated glass (Reflective glass) is also called reflective glass. Coated glass is coated with one or more layers of metal, alloy or metal compound films on the surface of the glass to change the optical properties of the glass to meet certain requirements. Coated glass can be divided into the following categories according to the different characteristics of the product: heat reflective glass, low-emissivity glass (Low-E), conductive film glass, etc. [0003] There are many production methods for coated glass, such as vacuum magnetron sputtering, vacuum evaporation, chemical vapor deposition, and sol-gel methods. Magnetron sputtering coating glass can design and manufacture multi-layer complex film system by...

Claims

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Application Information

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IPC IPC(8): C03C17/36
Inventor 陈全福陈齐平田永刚
Owner 新福兴玻璃工业集团有限公司
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