Breathable layered nano-porous copper silver composite material and preparation method thereof

A technology of nanoporous copper and composite materials, which is applied in the fields of botanical equipment and methods, metal layered products, chemical instruments and methods, etc., and can solve the problems of easy accumulation, single structure and non-self-supporting of nano-copper-silver bimetallic powder , to achieve good mechanical integrity, simple preparation method, and easy operation

Active Publication Date: 2018-07-10
HEBEI UNIV OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] The purpose of the present invention is to provide a breathable layered nano-porous copper-silver composite material and its nano-porous copper-silver composite material for the single stru...

Method used

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  • Breathable layered nano-porous copper silver composite material and preparation method thereof
  • Breathable layered nano-porous copper silver composite material and preparation method thereof
  • Breathable layered nano-porous copper silver composite material and preparation method thereof

Examples

Experimental program
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Effect test

Embodiment 1

[0035] Select alloy composition Cu 45 Zr 25 Ti 20 Ag 10, according to the atomic percentage of each element in the target alloy: Cu is 45at.%, Zr is 25at.%, Ti is 20at.%, Ag is 10at.%, and the mass fraction is 99.99% high-purity copper sheet (5.977g ), zirconium grain (4.767g), titanium grain (2.002g) and silver grain (2.255g) obtain master alloy raw material 15g; Master alloy raw material is placed in vacuum arc melting furnace (put into 99.9wt% pure titanium before smelting granules as oxygen-scavenging material), and repeated melting 4 times under the protection of high-purity argon (to ensure the uniformity of the alloy), each time about 40s. Cool down to room temperature with the furnace to get Cu 45 Zr 25 Ti 20 Ag 10 alloy ingot.

[0036] Take 3-4g of the polished and cleaned alloy ingot and place it in a quartz test tube, put the quartz test tube into the induction coil of the vacuum belt throwing machine and fix it in the induction coil, carry out induction mel...

Embodiment 2

[0042] Select alloy composition Cu 45 Zr 25 Ti 20 Ag 10 , according to the atomic percentage of each element in the target alloy: Cu is 45at.%, Zr is 25at.%, Ti is 20at.%, Ag is 10at.%, and the mass fraction is 99.99% high-purity copper sheet (5.977g ), zirconium grain (4.767g), titanium grain (2.002g) and silver grain (2.255g) obtain master alloy raw material 15g; Master alloy raw material is placed in vacuum arc melting furnace (put into 99.9wt% pure titanium before smelting granules as oxygen-scavenging material), and repeated melting 4 times under the protection of high-purity argon (to ensure the uniformity of the alloy), each time about 40s. Cool down to room temperature with the furnace to get Cu 50 Zr 25 Ti 20 Ag 10 alloy ingot.

[0043] Take 3-4g of the polished and cleaned alloy ingot and place it in a quartz test tube, put the quartz test tube into the induction coil of the vacuum belt throwing machine and fix it in the induction coil, carry out induction me...

Embodiment 3

[0049] Select alloy composition Cu 45 Zr 25 Ti 20 Ag 10 , according to the atomic percentage of each element in the target alloy: Cu is 45at.%, Zr is 25at.%, Ti is 20at.%, Ag is 10at.%, and the mass fraction is 99.99% high-purity copper sheet (5.977g ), zirconium grain (4.767g), titanium grain (2.002g) and silver grain (2.255g) obtain master alloy raw material 15g; Master alloy raw material is placed in vacuum arc melting furnace (put into 99.9wt% pure titanium before smelting granules as oxygen-scavenging material), and repeated melting 4 times under the protection of high-purity argon (to ensure the uniformity of the alloy), each time about 40s. Cool down to room temperature with the furnace to get Cu 50 Zr 25 Ti 20 Ag 10 alloy ingot.

[0050] Take 3-4g of the polished and cleaned alloy ingot and place it in a quartz test tube, put the quartz test tube into the induction coil of the vacuum belt throwing machine and fix it in the induction coil, carry out induction me...

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Abstract

The invention relates to a breathable layered nano-porous copper silver composite material, which is a thin strip, and is prepared from nano-porous copper silver in the middle, and nano-porous copperand nano-porous copper toward two sides sequentially. According to the breathable layered nano-porous copper silver composite material provided by the invention, CuxZryTizAgw is adopted as a precursoralloy, wherein x, y, z and w are atomic percent; x is larger than or equal to 35 and smaller than or equal to 45; y is larger than or equal to 15 and smaller than or equal to 25; z is larger than orequal to 15 and smaller than or equal to 25; w is larger than or equal to 10 and smaller than or equal to 30; and x plus y plus z plus w is equal to 100. Nano-holes in each layer of the material are completely transparent and are adjustable in hole diameters, and the layers communicate through the nano-holes, so that the composite material not only can play a role in multi-layer shielding bacteria, but also is completely breathable. The breathable layered nano-porous copper silver composite material has better filtration and sterilization performances in the field of mask filter slice materials.

Description

Technical field: [0001] The invention relates to the technical field of nanoporous materials, in particular to a breathable layered nanoporous copper-silver composite material and a preparation method thereof. Background technique: [0002] With the deterioration of air quality in recent years, haze weather began to appear. A large number of bacteria, viruses, etc. attach to suspended particles in the air and enter people's respiratory organs, endangering human health. Experts suggest that you need to wear a qualified mask when going out in foggy weather. A qualified mask must have a filter that filters suspended particles and has a strong bactericidal ability. How to prepare a material with good filtration and sterilization properties has become a problem that people pay more and more attention to. As we all know, metal copper and metal silver have strong bactericidal ability. Combining copper and silver at the same time can enhance the broad-spectrum antibacterial prop...

Claims

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Application Information

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IPC IPC(8): C22C1/08C22C3/00C25F3/08C22C9/00B22D11/06B32B15/01A01N59/20A01P1/00A41D13/11
CPCA01N59/20A41D13/1192C22C1/08C22C3/00C22C9/00C25F3/08B22D11/06B32B15/01C22C1/081
Inventor 秦春玲李曼张萌萌王志峰王晗
Owner HEBEI UNIV OF TECH
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