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Zirconium base amorphous composite material and preparation method thereof

A composite material and zirconium-based amorphous technology, which is applied in the field of amorphous composite materials and their preparation, and can solve the problems of difficulty in applying industrialized large-scale production and low comprehensive performance of zirconium-based amorphous composite materials.

Inactive Publication Date: 2011-05-18
海宁市盐官工业投资有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] The technical problem solved by the present invention is to overcome the defect that the comprehensive performance of zirconium-based amorphous composite materials in the prior art is not high and it is difficult to be applied to industrialized large-scale production, and to provide a kind of composite material that can be applied to industrialized large-scale production and has better comprehensive performance. Performance, especially zirconium-based amorphous composite material with better flexural strength and impact toughness and higher plastic deformation and preparation method thereof

Method used

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  • Zirconium base amorphous composite material and preparation method thereof
  • Zirconium base amorphous composite material and preparation method thereof
  • Zirconium base amorphous composite material and preparation method thereof

Examples

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Embodiment 1

[0028] This embodiment illustrates that the zirconium-based amorphous composite material provided by the present invention [(Zr 1-x f x ) 52 Al 10 Cu 30.5 (Ni 1-y Fe y ) 7.5 ] 100-a-b Y a m b preparation.

[0029] The various zirconium-based amorphous composite material raw materials with a purity of 99.7% by weight are put into an electric arc melting furnace (Shenyang Scientific Instrument Factory), the electric arc melting furnace is evacuated (the degree of vacuum is 10 Pa (absolute pressure)), and then the purity 99.9% by volume of argon as a protective gas, at 1500 ° C, smelting for 3 minutes to fully melt the raw material of the zirconium-based amorphous composite material; the type and amount of the raw material of the zirconium-based amorphous composite material are as follows: 50.2% Zr, 9.6 atomic% Al, 29.5 atomic% Cu, 7.2 atomic% Ni, 3 atomic% Nb and 0.5% of Y;

[0030] The molten sample is cast into a copper alloy mold by die casting for cooling and for...

Embodiment 2

[0032] This embodiment illustrates that the zirconium-based amorphous composite material provided by the present invention [(Zr 1-x f x ) 52 Al 10 Cu 30.5 (Ni 1-y Fe y ) 7.5 ] 100-a-b Y a m b preparation.

[0033] Prepare the zirconium-based amorphous composite material according to the method of Example 1, the difference is that the raw material type and dosage of the zirconium-based amorphous composite material are 50.8 atomic percent Zr, 9.7 atomic percent Zr Al, 29.9 atomic percent of Cu, 7.3 atomic percent of Ni, 1.5 atomic percent of Si and 0.8 atomic percent of Y; pressure 12MPa, mold material SKD61, cooling The speed is 850K / s;

[0034] The final zirconium-based amorphous composite material sample A2; elemental analysis shows that the composition of the zirconium-based amorphous composite material sample A2 is Zr 50.8 Al 9.7 Cu 29.9 Ni 7.3 Si 1.5 Y 0.8 (Wherein, the atomic percentages of metallic impurity elements and non-metallic impurity elements are...

Embodiment 3

[0036] This embodiment illustrates that the zirconium-based amorphous composite material provided by the present invention [(Zr 1-x f x ) 52 Al 10 Cu 30.5 (Ni 1-y Fe y ) 7.5 ] 100-a-b Y a m b preparation.

[0037] Prepare the zirconium-based amorphous composite material according to the method of Example 1, the difference is that the raw material type and dosage of the zirconium-based amorphous composite material are 50.2 atomic percent Zr and 9.6 atomic percent Al , 29.5 atomic percent Cu, 7.2 atomic percent Ni, 1.5 atomic percent Cr and 2 atomic percent Y; pressure 12MPa, mold material SKD61, cooling rate 800K / s;

[0038] Finally, the zirconium-based amorphous composite material sample A3 was obtained; elemental analysis showed that the composition of the zirconium-based amorphous composite material sample A3 was Zr 50.2 Al 9.6 Cu 29.5 Ni 7.2 Cr 1.5 Y 2 (Wherein, the atomic percentages of metal impurity elements and non-metal impurity elements are 0.05% and ...

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Abstract

The invention relates to a zirconium base amorphous composite material, containing a main material shown as the general formula: [(Zr1-xHfx)52Al10Cu30.5(Ni1-yFey)7.5)100-a-bYaMb, wherein x is the ratio of the atomic number of Hf to the total atomic number of Hf and Zr, and x ranges from 0 to 0.3; y is the ratio of the atomic number of Fe to the total atomic number of Fe and Ni, and y ranges from 0 to 0.3; a is the atomic percentage of Y, b is the atomic percentage of M, a is more than 0 and less than or equal to 8, and b is more than or equal to 0.01 and less than or equal to 15; M is one or more of La series metal elements, Ti, V, Nb, Ta, Cr, Mo, W, Mn and Si; and by taking the total volume of the zirconium base amorphous composite material as a reference, the content of an amorphous phase in the amorphous composite material is 50-95%, and the content of a crystalline phase is 5-50%. The zirconium base amorphous composite material provided by the invention has good comprehensive performance..

Description

technical field [0001] The present invention relates to an amorphous composite material and a preparation method thereof, more specifically, the present invention relates to a zirconium-based amorphous composite material and a preparation method thereof. Background technique [0002] Amorphous alloys are a new class of alloy materials whose constituent atoms are long-range disordered and short-range ordered. Due to its unique microstructure, it has superior mechanical, physical and chemical properties than conventional crystalline metal materials. These superior properties make amorphous alloys have potential applications in many fields. [0003] Since the early 1990s, led by Japan and the United States, a series of alloy components with strong amorphous forming ability have been discovered, among which zirconium-based amorphous alloys are the easiest to prepare, and their critical cooling rate is 1K / s It can be prepared into three-dimensional block materials by methods su...

Claims

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Application Information

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IPC IPC(8): C22C45/10
Inventor 林众
Owner 海宁市盐官工业投资有限公司
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