Method for producing nano antibiotic far infrared self cleaning glass and its product

A far-infrared, self-cleaning technology, applied in the field of nano-antibacterial far-infrared self-cleaning glass manufacturing process and its products, can solve the problems of self-cleaning architectural glass that have not been seen yet

Inactive Publication Date: 2007-01-24
刘明前
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Self-cleaning architectural glass and its products that have photophilicity, hydrophilicity, and can emit far-infrared rays have not yet been seen.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0012] Nano antibacterial far-infrared self-cleaning glass, the composition is composed of ZrO by 0.8% by weight 2 5. SiO2 2 50.Al 2 o 3 30. Na 2 O 15,TiO 2 1. ZnO 2. Fe 2 o 3 Nano antibacterial far infrared self-cleaning glass, Cr 2 o 3 1. The composition is the main material, and the auxiliary materials are CaO 1, MgO 2, CuO 1, MnO 2 1. Se 0.001, Cd 0.003, CoO 0.002, Li 2 O 15, Nd 2 o 3 3 Composition of colorants and stabilizers According to the conventional glass melting manufacturing process, the melting temperature is 1300-1600 ° C, the main material and auxiliary materials are ground into nano-powders, and cobalt oxide and manganese oxide are used together to form a colorant, mixed with - Melting-stirring-clarification-molding-finished product to get violet nano antibacterial self-cleaning glass products.

Embodiment 2

[0014] Antibacterial far-infrared self-cleaning microporous glass, the process method is as follows: prepare nano-scale microporous membrane plate, select carbon fiber with a diameter of 80 nanometers and a length of 1000 nanometers, and add SiO 2 Nano sol, while adding nano ZrO 2 After the powder is mixed with nano-carbon fiber and stirred evenly, a gel film is formed on the surface of the carbon fiber. After hydrolysis, precipitation, washing, and drying, the composite of nano-silicon, zirconium, and carbon fiber is obtained, and it is sent to the feeding device of the true inert gas electric furnace for storage- stand-by. In the second step, the above glass ingredients ZrO25, SiO250, Al 2 o 3 30. Na 2 O 15,TiO 2 1. ZnO 2. Fe 2 o 3 1. Cr 2 o 3 1. The composition is the main material, and the auxiliary materials are CaO 1, MgO 2, CuO 1, MnO 2 1. Se 0.005, Cd 0.005, CoO 0.002, Li 2 O 15, Nd2O3 2 compose the colorant and stabilizer, according to the conventional ...

Embodiment 3

[0016] Nano antibacterial far-infrared glass wine bottle container, the composition is made of ZrO by weight percentage 2 5. SiO2 2 50.Al 2 o 3 30. Na 2 O 15,TiO 2 1. ZnO 2. Fe 2 o 3 0.9, Cr 2 o 3 1. The composition is the main material, and the auxiliary materials are CaO 1, MgO 2, CuO 1, MnO 2 1. Se 0.001, Cd 0.003, CoO 0.002, Li 2 O 15, Nd 2 o 3 3 Composition of colorants and stabilizers According to the conventional glass melting manufacturing process, the melting temperature is 1300-1600 ° C, the main material and auxiliary materials are ground into nano-powders, and cobalt oxide and manganese oxide are used together to form a colorant, mixed with - Melting-stirring-clarification-molding-finished product to obtain violet far-infrared nano antibacterial glass wine bottle container product.

[0017]Compared with the prior art, the present invention has far-infrared rays with emission wavelength of 8-15 microns and nano effect, which are not available in ...

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Abstract

The present invention discloses a kind of nanometer antibiotic self-cleaning glass and its production process. The recipe includes main material comprising ZrO2, SiO2, Al2O3, Na2O, TiO2, ZnO and Fe2O3, and supplementary material comprising CaO, Cr2O3, CuO, MnO2, Se, Cd and CoO. The present invention can produce various kinds of color far infrared antibiotic self-cleaning glass, glass utensils and microporous glass products. The far infrared antibiotic self-cleaning glass may be used as building glass for high grade building, decoration glass, etc, as main material for microporous glass filter, and in making glass utensil and container. The products of the present invention possess antibiotic, degrading and self-cleaning effects.

Description

technical field [0001] The invention relates to a nano antibacterial far-infrared self-cleaning glass manufacturing process and its products. Background technique [0002] At present, the self-cleaning glass with degradation stains is all coated glass manufactured by coating method. There is no self-cleaning architectural glass and its products that have photophilicity, hydrophilicity, and can emit far-infrared rays by themselves. Contents of the invention [0003] The object of the present invention is to provide a manufacturing process of nanometer antibacterial far-infrared self-cleaning glass and its products. This kind of glass product has nano size effect, surface antibacterial and sterilizing function, and can emit 5000-15000nm (nanometer) far-infrared rays at room temperature, has photophilicity and hydrophilicity, and can automatically degrade glass under the action of light and water Surface stains, to achieve the purpose of self-cleaning. [0004] The object ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C03C3/087C03C3/062
CPCC03C3/078C03C3/085C03C3/062C03C3/125C03C3/083C03C3/087C03C4/082C03C4/0007C03C3/095C03C3/076
Inventor 周春青蒋国印赛景波刘明前刘堂军侯雅奇刘堂鸿马凯许开鹏任罡蒋熙萍刘琦惠子刘佳
Owner 刘明前
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