sw-cnts fiber reinforced magnesium alloy matrix composite material and method

A fiber-reinforced and composite material technology, applied in the field of preparation of the SW-CNTs fiber-reinforced magnesium alloy-based composite material, can solve the problem that cannot be used to prepare single-walled carbon nanotube magnesium alloy-based composite materials and ultra-fine diameter wires materials and other issues, to achieve the effect of expanding the application field

Active Publication Date: 2021-06-29
西安优弧智熔增材制造有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, none of these methods can be used to prepare single-walled carbon nanotubes (SW-CNTs) reinforced magnesium alloy matrix composites and ultra-fine diameter wires.

Method used

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  • sw-cnts fiber reinforced magnesium alloy matrix composite material and method
  • sw-cnts fiber reinforced magnesium alloy matrix composite material and method

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0051] Select 450 mesh AZ91 magnesium alloy powder as the matrix of the composite material, SW-CNTs are fibers with a length of 2 μm, weighed according to the weight percentage ratio, the fiber content of SW-CNTs is 0.5%, and the rest is AZ91 magnesium alloy powder, the above components The sum of weight percentages is 100%. Use Φ5mm grinding balls and capsule grinding balls, the number of grinding balls and capsule grinding balls is the same, and the weight of the grinding balls is 60% of the total weight of the SW-CNTs fibers and AZ91 magnesium alloy powder to be ball-milled.

[0052] The above-mentioned powders and balls were put into a ball mill tank together, and the mixed powder was ball milled for 48 hours in a horizontal high-energy ball mill at 150 rpm under the protection of argon. Mixed uniformly by ball milling machine, and dispersed SW-CNTs fibers, avoiding entanglement and agglomeration into bundles. Due to the use of argon protection, the burning of SW-CNTs fib...

Embodiment 2

[0057] Choose 500 mesh ZK60 magnesium alloy powder as the matrix of the composite material, SW-CNTs are fibers with a length of 3 μm, weighed according to weight percentage, SW-CNTs fiber content is 1%, and the rest is ZK60 magnesium alloy powder, the weight of each component above The sum of the percentages is 100%. Use Φ5mm grinding balls and capsule grinding balls, the number of grinding balls and capsule grinding balls is the same, and the weight of the grinding balls is 60% of the total weight of the SW-CNTs fibers and ZK60 magnesium alloy powder to be ball-milled.

[0058] The above-mentioned powders and balls were put into a ball mill tank together, and the mixed powder was ball milled for 48 hours in a horizontal high-energy ball mill at 150 rpm under the protection of argon. Mixed uniformly by ball milling machine, and dispersed SW-CNTs fibers, avoiding entanglement and agglomeration into bundles. Due to the use of argon protection, the burning of SW-CNTs fibers is a...

Embodiment 3

[0063] Select 600-mesh Mg-6.5Zn-2.6Y-0.8Ce-1.2Nd alloy powder as the matrix of composite materials, SW-CNTs are fibers with a length of 5 μm, weighed according to weight percentage, SW-CNTs fiber content is 1.5%, and the rest It is Mg-6.5Zn-2.6Y-0.8Ce-1.2Nd alloy powder, and the sum of the weight percentages of the above components is 100%. Use Φ5mm grinding balls and capsule grinding balls, the number of grinding balls and capsule grinding balls is the same, and the weight of the grinding balls is the total weight of SW-CNTs fibers and Mg-6.5Zn-2.6Y-0.8Ce-1.2Nd powder to be ball-milled 60% of.

[0064] The above-mentioned powders and balls were put into a ball mill tank together, and the mixed powder was ball milled for 48 hours in a horizontal high-energy ball mill at 150 rpm under the protection of argon. Mixed uniformly by ball milling machine, and dispersed SW-CNTs fibers, avoiding entanglement and agglomeration into bundles. Due to the use of argon protection, the burn...

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Abstract

The invention discloses SW-CNTs fiber-reinforced magnesium alloy-based composite wire material, which is composed of the following raw material components by weight percentage: 0.5-1.5% of SW-CNTs short fibers, the balance is magnesium alloy powder, and the weight percentages of the above components The sum is 100%. The wire avoids the problem of weak interfacial bonding strength caused by poor wettability between SW‑CNTs fibers and magnesium alloy matrix, and gives full play to the comprehensive mechanical properties and physical and chemical properties of SW‑CNTs reinforced magnesium alloy matrix composites. The preparation method is as follows: step 1, high-energy ball milling; step 2, preparation of billet by semi-solid injection pressing; step 3, extrusion preparation of ultra-fine diameter wire.

Description

technical field [0001] The invention belongs to the field of metal matrix composite materials, in particular to SW-CNTs fiber-reinforced magnesium alloy-based composite material wire, and also relates to a preparation method of the SW-CNTs fiber-reinforced magnesium alloy-based composite material wire. Background technique [0002] Since the discovery of carbon nanotubes (CNTs) by Japanese scientist Sumio Iijima in 1991, new carbon nanomaterials with unique structures and excellent physical and mechanical properties have attracted extensive attention from researchers in the field of materials. CNTs are divided into multi-walled carbon nanotubes (MW-CNTs) and single-walled carbon nanotubes (SW-CNTs). High strength, elastic modulus, high toughness, excellent electrical and thermal conductivity, good structural stability and heat resistance, and at the same time it has the lightweight characteristics of carbon. Therefore, it has great application prospects in many high-tech fi...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C22C49/04C22C49/14C22C47/00B22F9/04B22D17/00B22F10/18B21C23/08B33Y70/10C22C101/10
CPCC22C49/04C22C49/14C22C47/00B22F9/04B22D17/007B21C23/08B33Y70/00B22F2009/043B22F10/00B22F10/34Y02P10/25
Inventor 马东徐春杰李岩任国璐郭灿武向权张忠明曾凡宏D·谢赫特曼
Owner 西安优弧智熔增材制造有限公司
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