High-performance copper alloy and high-performance copper alloy powder preparation method

A powder preparation and copper alloy technology, which is applied in the field of copper alloy and powder metallurgy materials, can solve the problem that the alloy cannot meet high strength and high conductivity at the same time, the coarse primary second phase has no obvious improvement effect, and it is difficult to refine the primary phase, etc. problem, to achieve the effect of improving the success rate of milling, reducing the milling process, and inhibiting the formation and growth of the second phase

Active Publication Date: 2020-03-10
CENT SOUTH UNIV
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  • Claims
  • Application Information

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Problems solved by technology

[0007] (1) The Cu-Cr-Zr alloy prepared by the casting forming method forms a coarse and hard second phase during the casting process, which is difficult to improve through deformation processing and affects the properties of the alloy
[0008] (2) Subsequent treatments such as solution treatment, deformation processing and aging can refine the structure, but have no obvious improvement effect on the coarse primary second phase formed by casting
[0009] (3) Mechanical ball milling can refine the structure, but the easily introduced impurities such as Fe, O, and C affect the conductivity of the alloy
[0010] In conclusion, Cu-Cr-Zr alloys reported so

Method used

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  • High-performance copper alloy and high-performance copper alloy powder preparation method

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Experimental program
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Effect test

Embodiment 1

[0053] Embodiment 1: Alloy A and powder preparation thereof

[0054] According to the nominal composition of alloy A in Table 1, alloy raw materials are prepared, and pure metals Cu, Cr, Zr and M (M is RE (La: Ce: Yb (mass ratio) = 1:3:1) are prepared in a water-cooled copper crucible magnetic levitation melting furnace ), Mg, Ag, B mixture, its specific ratio is: RE:Mg:Ag:B (mass ratio) = 3:1:2:1) and other alloy raw materials for vacuum melting, the vacuum degree is 5.0×10 -1 Pa, using argon protection; after the raw materials are melted and completely alloyed, adjust the melt temperature to about 1600°C, and then use argon to atomize to prepare powder, the atomization pressure is 3.5MPa~3.6MPa; The copper alloy powders were sieved in a vacuum glove box and stored in vacuum packaging. The powder extraction rate of fine powder is 90%.

[0055] The prepared powder chemical composition analysis results are shown in Table 1, and its particle size distribution is shown in Table...

Embodiment 2

[0056] Embodiment 2: Alloy B and its powder preparation

[0057] According to the nominal composition of alloy B in Table 1, pure metals are taken, and raw materials Cu, Cr, Zr and M (M is a mixture of RE (La:Ce:Yb (mass ratio)=1:3:1), Mg, Ag, Si , and its specific ratio is: RE:Mg:Ag:Si (mass ratio) = 3:1:2:1) is melted in a vacuum induction melting furnace with a vacuum degree of 4.0×10 -1 Pa, protected by argon; after the raw materials are melted and completely alloyed, the melt temperature is adjusted to 1400°C, and then argon is used for atomization to prepare powder. The atomization pressure is 3.5MPa-3.6MPa; the copper alloy powder prepared by atomization is screened in a vacuum glove box and stored in vacuum packaging. The powder yield of fine powder is 84%.

[0058] The prepared powder chemical composition analysis results are shown in Table 1, and the powder morphology is shown in Table 1. Figure 5 , good sphericity and uniform particle size distribution. Powder ...

Embodiment 3

[0059] Embodiment 3: Alloy C and its powder preparation

[0060] According to the nominal composition of alloy C in Table 1, pure metal is taken, and the raw materials Cu, Cr, Zr and M, M is a mixture of (La:Ce:Yb=1:3:1), Mg, Ag, Ga, and its specific ratio For RE:Mg:Ag:Ga (mass ratio) = 3:1:2:1), it is melted in the water-cooled copper crucible of the magnetic levitation atomization equipment, and the vacuum degree is 5×10 -1 Pa, protected by argon gas; after the raw materials are melted and completely alloyed, the melt temperature is adjusted to about 1500°C, and then argon gas is used for atomization to prepare powder. The atomization pressure is 3.5MPa-3.6MPa; the copper alloy powder prepared by atomization is screened in a vacuum glove box and stored in vacuum packaging. The powder yield of fine powder is 86%.

[0061] The prepared powder chemical composition analysis results are shown in Table 1, and the powder morphology is shown in Table 1. Figure 7 , good sphericit...

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Abstract

The invention relates to a high-performance copper alloy and a high-performance copper alloy powder preparation method. The high-performance copper alloy comprises Cu, Cr, Zr and M, wherein the mass percentage of Cr is 0.1-5.0% , and the mass percentage of Zr is 0.1-5.0% . M is composed of at least two of Mg, Ag, B, Ga, Si, Li, Ti, Fe and Mn and Re, wherein the mass percentage of the M is 0.05-0.5%, and RE is selected from at least three of Ce, La, Yb, Pr, Nd and Sm. Cu-Cr-Zr-M copper alloy powder is prepared through gas atomization, the powder is supersaturated solid solution which is uniformin ingredient and fine in micro-structure. The preparation technology is simple, the obtained powder is fine in particle, uniform in particle size distribution and good in sphericity degree. A blockymaterial made of the powder has the features of excellent electrical properties and mechanical properties.

Description

technical field [0001] The invention relates to a high-performance copper alloy and a powder preparation method thereof, belonging to the field of copper alloy and powder metallurgy materials. [0002] technical background [0003] Cu-Cr-Zr alloy has good electrical and thermal conductivity, but also has high strength, good wear resistance, corrosion resistance and high temperature and low cycle fatigue resistance, and is widely used in electrical, electronic, transportation and machinery manufacturing and other fields. [0004] At present, Cu-Cr-Zr series copper alloys are mainly produced by casting. However, the Cu-Cr-Zr alloy is prepared by smelting and casting technology, the melt cooling rate is slow, resulting in coarse microstructure and composition segregation, and the formation of coarse hard second phase particles, which are difficult to eliminate through subsequent processing, seriously reducing the alloy properties . High-temperature solid solution (920-980°C) ...

Claims

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Application Information

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IPC IPC(8): C22C9/00C22C1/02C22C1/04C22F1/08B22F1/00B22F9/08
CPCB22F1/0003B22F9/082B22F2009/0848C22C1/02C22C1/0425C22C9/00C22F1/08
Inventor 刘祖铭赵凡黄伯云吕学谦李全彭凯陈仕奇
Owner CENT SOUTH UNIV
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