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Novel environment-friendly low-reflection glass and processing technology thereof

A processing technology and low reflection technology, applied in the coating and other directions, can solve the problems of environmental pollution in the processing technology, and achieve the effect of eliminating the processing technology, the processing technology is simple, and the strength is increased.

Inactive Publication Date: 2018-10-02
廖仲明
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] Aiming at the problems existing in the prior art, the present invention provides a water-based environment-friendly frosted glass powder ink mixed layer on the surface of the glass body. After the processing technology is completed, the effect of clear, bright, translucent and opaque frosted glass is realized, and the aesthetic effect is achieved. It is changeable and durable, light in weight and impact resistant, which solves the problem of environmental pollution in processing technology, and at the same time, the processing technology is simple, which is more conducive to industrial production

Method used

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  • Novel environment-friendly low-reflection glass and processing technology thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0038] 1. Select colored glass scraps and grind them into 600-mesh powder. During the grinding process, crushing, ball milling, rinsing, drying, powdering, and mixing processes are carried out, and finally fine-grained powder is formed, and then transparent ceramic glaze and diluent are added. Stir evenly to form mixture A for later use, and mix the powder of colored glass scraps, transparent ceramic glaze, and thinner in a weight ratio of 2:1:2, and then preheat to 100°C for later use to form mixture B;

[0039] 2. Select a piece of flat glass, prepare the required graphic screen on the surface of the flat glass, print a layer of mixture B100μm on one side of the flat glass with a 400-mesh screen printing screen, and then heat at a high temperature, 600 degrees, for 12 minutes, Under the action of high temperature, the mixture of glass powder and transparent ceramic glaze firmly adheres to the glass surface to make a silk-printed low-reflection colored glass with a reflectivit...

Embodiment 2

[0041] 1. Select colored glass scraps and grind them into 400-mesh powder, then add transparent ceramic glaze and diluent to stir and mix. The powder of colored glass scraps, transparent ceramic glaze, and thinner are mixed according to the ratio of 2:1:2. Mix evenly by weight to form mixture A for later use, then preheat to 80°C for later use to form mixture B;

[0042] 2. Select a piece of flat glass, prepare the required graphic screen on the surface of the flat glass, roll a layer of mixture B 60μm on the surface of the flat glass with a roller printer, and then heat at a high temperature, 550 degrees, for 10 minutes. Under the action of high temperature, the mixture of glass powder and transparent ceramic glaze firmly adheres to the glass surface to make a roll-printed low-reflection glass with a reflectivity of 0.6.

Embodiment 3

[0044] 1. Select colored glass scraps and grind them into 200-mesh powder, then add transparent ceramic glaze and diluent to stir and mix. The powder of colored glass scraps, transparent ceramic glaze, and thinner are mixed according to the ratio of 2:1:2. Mix evenly by weight to form mixture A for later use, then preheat to 90°C for later use to form mixture B;

[0045]2. Select a piece of flat glass, prepare the required graphic screen on the surface of the flat glass, spray a layer of glass mixture B50μm on the surface of the flat glass with a spray gun, and then heat at a high temperature at 500 degrees for 8 minutes, the glass powder Under the action of high temperature, the mixture with transparent ceramic glaze firmly adheres to the glass surface to make a low-reflection glass with a reflectivity of 0.3.

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Abstract

The invention relates to novel low-reflection glass and a processing technology of the novel low-reflection glass. A water-based environment-friendly frosted glass powder ink mixed layer is arranged on the surface of a glass body and the processing technology comprises the following steps: (1) selecting white glass scraps or colored glass scraps to be ground into the powder of 200 to 600 meshes, then putting in transparent ceramic glaze, and diluents and stirring and uniformly mixing to form a mixture A for later use; 2) preheating the mixture A by low temperature firstly, and arranging the preheated mixture A on the surface of the one lateral surface of flat glass, and controlling the thickness to be 50 microns to 20 microns; 3) heating the flat glass, making the mixture A on the surfaceof the flat glass directly dissolved and stuck on the surface of the flat glass under the action of high temperature to form the low-reflection glass. A clear, bright, translucent and opaque multi-color frosted glass effect is achieved, and the novel low-reflection glass is varied and lasting in aesthetic effect, light in weight and impact-resistant, solves the environmental pollution problems ofthe processing technology, and further is simple in processing technology and more conducive to the industrial production.

Description

technical field [0001] The invention relates to the technical field of glass processing, in particular to the preparation of a low-reflection glass that can replace the strong acid corrosion process. Background technique [0002] In architectural decoration projects and daily life applications, frosted glass (low-reflection glass) is used in many occasions that do not need to be completely transparent, such as background walls, suspended ceilings, dining tables, screens, mirror paintings, entrances, partitions, and floors. , railings, shower room, glass tea table... Frosted glass organically combines the interior and exterior landscapes through artistic decoration. Its transparency makes people feel like they are connected to the outside world while in the interior. The light-transparent and opaque effect effectively expands the depth and height of the space. The grade of space decoration is greatly improved, and in the production process of frosted glass, the light-transmi...

Claims

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Application Information

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IPC IPC(8): C03C17/00
CPCC03C17/009C03C2217/732C03C2217/77C03C2218/13
Inventor 廖仲明
Owner 廖仲明