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Coated product

A product and film layer technology, applied in the field of automotive coated glass, can solve the problems of silver film layer prone to erythema, achieve good anti-sulfurization and discoloration properties, improve stability, low emissivity and surface resistance

Inactive Publication Date: 2012-06-27
FUYAO GLASS IND GROUP CO LTD +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, doping copper in silver will make the silver film prone to erythema defects during subsequent processing.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0059] On the glass substrate 2.0C, sequentially plate ZnSnO with a thickness of 38nm 2 Film layer; Ti film layer with a thickness of 3nm; Ag with a thickness of 12nm 1-a-b-c Y a Mg b B c Film layer, wherein a+b+c=9.5wt%; Ti film layer with a thickness of 3nm; ZnSnO with a thickness of 27nm 2 Film layer; Si with a thickness of 12nm 3 N 4 The film layer is used as a protective layer to obtain heat-treatable low-emissivity coated glass.

[0060] Optical performance test

[0061] Before heat treatment, the emissivity of a single piece of low-emissivity coated glass is 0.051, and the visible light transmittance is 80.5%. The resistance is 10.8Ω / square; the low-emissivity coated laminated glass obtained after washing and assembling has been tested, and its visible light transmittance is 76.1%, and the solar direct transmittance is 48%.

[0062] physical properties

[0063] According to GB9656-2003, impact test, radiation resistance test, damp heat cycle test, etc. can meet...

Embodiment 2

[0065] On the glass substrate 2.0C, sequentially plate ZnSnO with a thickness of 33nm 1.8 Film layer; Ti film layer with a thickness of 2nm; Ag with a thickness of 10nm 1-a-b-c Y a Mg b B c Film layer, wherein a+b+c=3wt%; Ti film layer with a thickness of 2nm; ZnSnO with a thickness of 70nm 18 Film layer film layer; Ti film layer with a thickness of 3nm; Ag with a thickness of 12nm 1-a-b-c Y a Mg b B c Film layer, wherein a+b+c=3wt%; a Ti film layer with a thickness of 3nm; a ZnSnO layer with a thickness of 26nm 1.8 Film layer; TiO with a thickness of 8 nm 2 The film layer is used as a protective layer to obtain heat-treatable low-emissivity coated glass.

[0066] Optical performance test

[0067] Before heat treatment, the emissivity of a single piece of low-emissivity coated glass is 0.045, and the visible light transmittance is 78.2%. The resistance is 4.3Ω / square; the low-emissivity coated laminated glass obtained after washing and assembling has been tested to ...

Embodiment 3

[0071]On the glass substrate 2.0C, sequentially plate ZnSnO with a thickness of 35nm 2.3 Film layer; Ti film layer with a thickness of 2nm; Ag with a thickness of 12nm 1-a-b-c Y a Mg b B c Film layer, wherein a+b+c=0.05wt%; Ti film layer with a thickness of 2nm; ZnSnO with a thickness of 70nm 2.3 Film layer film layer; Ti film layer with a thickness of 2nm; Ag with a thickness of 10nm 1-a-b-c Y a Mg b B c Film layer, wherein a+b+c=0.05wt%; Ti film layer with a thickness of 3nm; ZnSnO with a thickness of 65nm 2.3 Film layer; Ti film layer with a thickness of 3nm; Ag with a thickness of 9nm 1-a-b-c Y a Mg b B c Film layer, wherein a+b+c=0.05wt%; Ti film layer with a thickness of 3nm; ZnSnO with a thickness of 25nm 2.3 Film layer Film layer; ZrO with a thickness of 10nm 2 The film layer is used as a protective layer to obtain heat-treatable low-emissivity coated glass.

[0072] Optical performance test

[0073] Before heat treatment, the emissivity of a single piec...

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Abstract

The invention discloses a coated product, particularly automobile coated glass which can be processed by high temperature heat treatment. The coated glass is characterized in that an alloy material consisting of Ag, Y, Mg and B is used for replacing original pure Ag to be as a material of a low radiation function layer in the film structure of the coated product, after depositing the film layer, the function layer material is represented as Ag1-a-b-cYaMgbBc, wherein a+b+c is larger than 0 wt% and no larger than 9.5 wt%. Because of the use of the alloy Ag, the coated product is not easily be influenced by the environment, and in the other hand, the material cost of industrial large scale production is reduced. The use of the alloy material improves the antioxidant properties, capability of resisting tarnishing resulted from sulfuration, anti-mechanical properties, and chemical attack resistance of the function film layer in the film layers. The coated product disclosed herein is mainly used in automobile windshields.

Description

【Technical field】 [0001] The invention relates to a coated product, in particular to an automotive coated glass capable of high-temperature heat treatment. 【Background technique】 [0002] With the enhancement of people's awareness of energy saving, more and more buildings or cars will use low-emissivity coated glass or heat-reflective coated glass. increased comfort. [0003] Most of the off-line low-emissivity coated glass is produced now using pure silver as the functional film layer that reflects infrared rays. Because pure metallic silver is easy to react with sulfide gas in the air, the performance of silver is degraded, and silver is easily oxidized during high temperature heat treatment. The low-radiation function is lost. Therefore, the current production of low-radiation coated glass uses multi-layer dielectric layers to protect the silver layer. Even so, when the film layer is exposed to the atmosphere, the silver functional layer will be corroded by harmful gases...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C03C17/22C03C17/34
Inventor 李艺明尚贵才
Owner FUYAO GLASS IND GROUP CO LTD
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