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Processing method for nano-texture glass with high reflectivity

A technology of nano-texture and processing method, which is applied in the direction of craft, decorative art, coating, etc. for producing decorative surface effects, to achieve the effects of high light transmission, high weather resistance, and low product cost

Inactive Publication Date: 2018-02-16
深圳市锦瑞新材料股份有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, there is a lack of a highly reflective nano-textured glass processing that can reproduce small patterns, reflect texture, wear resistance and anti-fouling, high input-output rate, stable product quality, high weather resistance and low product cost in the prior art. method

Method used

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Embodiment Construction

[0009] The present invention will be described in more detail below in conjunction with the embodiments.

[0010] The invention discloses a method for processing highly reflective nano-textured glass, which includes the steps of pre-processing, microstructure layer texture processing, and reflective layer processing. The microstructure layer texture processing steps include:

[0011] Step S1, coating UV glue: 200-300 mesh screen printing or spraying glass UV high-permeability ink layer on the tempered glass, the coating thickness is 30-45 μm;

[0012] Step S2, pressing: pressing the glass and the template through the roller pressing and pressing equipment, and the distance between the pressing rollers is the total thickness of the glass and the template -0.3mm;

[0013] Step S3, pre-curing: pre-curing the UV high-transmitting ink layer on the glass at a temperature of 45-55°C, the pre-curing power is 5.6KW, the ultraviolet wavelength is 365nm, and the pre-curing time is 30S;

[0014] St...

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PUM

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Abstract

The invention discloses a method for processing high-reflectivity nano-textured glass, which comprises the steps of preprocessing, micro-structure layer texture processing and reflective layer processing. The micro-structure layer texture processing step includes: on tempered glass 200-300 mesh screen printing or spraying glass UV high-transparent ink layer, the coating thickness is 30-45μm; the glass and the template are pressed by roller pressing and pressing equipment, and the distance between the rollers is the total thickness of the glass and the template ‑0.3mm; pre-curing the UV high-transmittance ink layer on the glass at a temperature of 45~55℃, the pre-curing power is 5.6KW, the UV wavelength is 365nm, and the pre-curing time is 30S; mold release transfer; The high-permeability ink coating is completely cured, so that the nano-texture is cured on the glass surface, and the UV high-permeability ink layer on the glass is completely cured at a temperature of 45-55°C. The curing power is 11.2KW, the UV wavelength is 365nm, and the curing is 40-50S. The invention can embody the characteristics of small patterns, good processing quality and the like.

Description

Technical field [0001] The invention relates to a glass processing method, in particular to a processing method of highly reflective nano-textured glass. Background technique [0002] Colorful texture is the visual effect of light reflected by thousands of lines. It is a design based on the principle of light reflection. The realization process is to print a layer of colored coating or ink with ink on the surface of ordinary flat glass or tempered glass. Color transparent coating, then apply a layer of cross-linked molecular structure resin, and then paste the plastic color crystal particles (or glitter paper, gold powder, silver powder, laser powder) on the glue layer, and then dry or dry it After that, a protective layer of epoxy resin is applied to make Caijing glass. However, the prior art lacks a highly reflective nano-textured glass processing that can reproduce small patterns, reflect texture, wear and stain resistance, high input and output, stable product quality, extre...

Claims

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Application Information

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IPC IPC(8): C03C17/00B44C1/17
CPCC03C17/006B44C1/1712C03C2217/70
Inventor 金烈李元葛秀彬
Owner 深圳市锦瑞新材料股份有限公司
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