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Graphene glass and production process thereof

A graphene and glass technology, applied in the field of graphene glass and its production process, can solve the problems of complex production process, human injury, high production cost, etc., and achieve the effect of simple and easy-to-obtain raw materials and increase strength

Active Publication Date: 2013-12-25
HUBEI DINGYU ENERGY SAVING ENVIRONMENTAL PROTECTION TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, as we all know, fragility is the biggest disadvantage of glass, which often breaks for some reason during transportation or installation
At the same time, glass fragments will also cause unnecessary harm to the human body.
At present, there are a few shatterproof glass on the market, but its production cost is high and the production process is complicated, so it cannot be truly industrialized

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0015] In the present embodiment, the mass fractions of each raw material are as follows: 100 parts of quartz sand, 25 parts of calcite, 45 parts of soda ash, 12 parts of lepidolite, 30 parts of graphene and Cu 2 O40 copies.

[0016] (1) Mix the raw materials uniformly according to the above mass parts to obtain the mixed material;

[0017] (2) Control the temperature of the electric melting furnace to 1800°C, slowly add the mixed material into the furnace, and melt at high temperature for 20 hours;

[0018] (3) Feed the molten material into the mold to make glass products of certain specifications;

[0019] (4) Send the glass product into the annealing box, and reduce the temperature to 150°C within 1.5 hours to complete the annealing;

[0020] (5) Send the annealed glass product into the air, and naturally cool it to room temperature to obtain a red glass product.

Embodiment 2

[0022] In the present embodiment, the mass fractions of each raw material are as follows: 150 parts of quartz sand, 22 parts of calcite, 32 parts of soda ash, 15 parts of lepidolite, 45 parts of graphene and Co 2 o 3 50 servings.

[0023] (1) Mix the raw materials uniformly according to the above mass parts to obtain the mixed material;

[0024] (2) Control the temperature of the electric melting furnace to 1900°C, slowly add the mixed material into the furnace, and melt at high temperature for 19 hours;

[0025] (3) Feed the molten material into the mold to make glass products of certain specifications;

[0026] (4) Send the glass product into the annealing box, and reduce the temperature to 155°C within 1.5 hours to complete the annealing;

[0027] (5) Send the annealed glass product into the air, and naturally cool it to room temperature to obtain the blue glass product.

Embodiment 3

[0029] In the present embodiment, the mass fractions of each raw material are as follows: 200 parts of quartz sand, 28 parts of calcite, 22 parts of soda ash, 10 parts of lepidolite, 58 parts of graphene and MnO 2 60 servings.

[0030] (1) Mix the raw materials uniformly according to the above mass parts to obtain the mixed material;

[0031] (2) Control the temperature of the electric melting furnace to 2000°C, slowly add the mixed material into the furnace, and melt at high temperature for 18 hours;

[0032] (3) Feed the molten material into the mold to make glass products of certain specifications;

[0033] (4) Send the glass product into the annealing box, and reduce the temperature to 160°C within 1.5 hours to complete the annealing;

[0034] (5) Send the annealed glass product into the air, and naturally cool it to room temperature to obtain the purple glass product.

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PUM

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Abstract

The invention discloses graphene glass and production process thereof. The graphene glass is prepared from the following raw materials in mass part: 100-200 parts of quartz sand, 20-30 parts of calcite, 20-50 parts of sodium carbonate, 10-15 parts of lepidolite, 30-60 parts of graphene, and 40-60 parts of color developing agent. The color developing agent is a kind of metallic oxide, and is one or multiple types from Cu2O, Co2O3, MnO2 and CdO. A finished product is obtained through the procedures of mixing, melting, molding, annealing and the like. As the hardest nano-material in the world at the present, the graphene material is added to the raw materials, so that the strength of the glass is greatly improved, and the prepared glass is harder and more wear-resistant as compared with common glass and has low possibility of breakage.

Description

technical field [0001] The invention relates to a glass, in particular to a graphene glass and a production process thereof. Background technique [0002] Glass has the properties of light transmission, perspective, isolation of air circulation, sound insulation and heat insulation, etc. It is widely used in construction, daily use, medical treatment, chemistry, electronics, instrumentation, nuclear engineering and other fields. However, as we all know, fragility is the biggest disadvantage of glass, which often breaks for some reason during transportation or installation. At the same time, glass fragments will also cause unnecessary harm to the human body. At present, there are a few shatterproof glass on the market, but its production cost is high and the production process is complicated, so it cannot be truly industrialized. Therefore, it is particularly important to seek a simple and easy-to-operate production process and to develop a low-cost, unbreakable glass. Co...

Claims

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Application Information

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IPC IPC(8): C03C14/00
Inventor 林耀朋张旭吴军
Owner HUBEI DINGYU ENERGY SAVING ENVIRONMENTAL PROTECTION TECH CO LTD
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