Magnetic refrigeration HoxTbyMz high-entropy alloy and preparation method thereof

A high-entropy alloy and magnetic refrigeration technology, applied in the field of magnetic refrigeration alloys, can solve the problems of inventing magnetic refrigeration alloys, large economic burdens, materials that are difficult to change large magnetic entropy, etc., and achieves a wide range of applicable temperature and cost saving. Effect

Active Publication Date: 2016-07-06
UNIV OF SCI & TECH BEIJING
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  • Abstract
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  • Application Information

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Problems solved by technology

[0005] 1) Since high-entropy alloys are new metal materials, magnetic refrigeration alloys have not been invented in the high-entropy alloy series;
[0006] 2) It is difficult to find materials with large magnetic entropy changes, and even many alloys have smaller magnetic entropy changes than pure Gd;
[0007] 3) Rare earth elements are usually directly used as magnetic working fluids, and their purification will cause a large economic...

Method used

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  • Magnetic refrigeration HoxTbyMz high-entropy alloy and preparation method thereof
  • Magnetic refrigeration HoxTbyMz high-entropy alloy and preparation method thereof
  • Magnetic refrigeration HoxTbyMz high-entropy alloy and preparation method thereof

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Embodiment

[0036] Commercially available rare earth metals Gd, Er, Dy, Ho, Tb are used as starting materials. Use a vacuum non-consumable tungsten electric arc furnace to melt the alloy, and evacuate the sample chamber. When the vacuum degree reaches 5*10 -3 After Pa, rush into the industrial argon until the pressure in the furnace reaches half an atmosphere;

[0037] After each smelting alloy is melted, the arc is kept for 30s-60s, and the alloy block is turned over after cooling. Each alloy needs to be smelted 4 times to ensure that the composition of the master alloy is uniform. The nominal composition (atomic percentage) of embodiment alloy is Gd respectively 20 Dy 20 Er 20 Ho 20 Tb 20 , Gd 25 Er 25 Ho 25 Tb 25 and Er 33.33 Ho 33.33 Tb 33.34 . Take an appropriate amount of master alloy material and place it in a copper mold with cooling water, and re-melt it in an electric arc furnace under an argon atmosphere. After re-melting, the alloy melt is suction-cast into the c...

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Abstract

The invention belongs to the field of magnetic refrigeration alloys in high-entropy materials, and relates to a magnetic refrigeration HoxTbyMz high-entropy alloy and a preparation method thereof. The high-entropy alloy has a chemical formula of HoxTbyMz; the atomic percents of all components are as follows: x not more than 35 and not less than 5, y not more than 35 and not less than 5, wherein M is one or more in Gd, Ce, Pr, Nd, Pm, Sm, Eu, Gd, Dy, Er, Tm, Yb, Lu and Y, Z not more than 90 and not less than 30, and x+y+z=100; and the high-entropy alloy material is formed under general vacuum suction casting conditions, is low in heat hysteresis effect, has magnetic entropy change even exceeding metal Gd and high magnetic refrigeration capacity, can reach a highest refrigeration temperature section of 190 K, and is an excellent magnetic refrigeration material near the room-temperature range. The high-entropy alloy is broad in application prospect and unique in purpose in such daily life goods with high quantity and wide application as household magnetic refrigerators and household magnetic air conditioners and in the national defense field.

Description

technical field [0001] The invention belongs to the field of magnetic refrigeration alloys in functional materials, in particular to a Ho alloy with large magnetic entropy change and magnetic refrigeration capacity x Tb y m z A high-entropy alloy material and a preparation method thereof. Background technique [0002] Human life in modern society is increasingly inseparable from refrigeration technology, ranging from small to people's daily life, such as household air conditioners, refrigerators, food freezers, car air conditioners, to central air conditioning, gas liquefaction, industrial and agricultural production, etc. The freon used in traditional gas refrigeration has a destructive effect on the atmospheric ozone layer. The commonly used artificially synthesized alternative refrigerants usually have a strong greenhouse effect, and developed countries have legally stipulated that they stop using them in stages. At the same time, traditional refrigeration technology c...

Claims

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Application Information

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IPC IPC(8): C22C1/02C22C28/00C22C30/00
CPCC22C1/02C22C28/00C22C30/00
Inventor 吴渊原园吕昭平童欣袁小园王辉刘雄军
Owner UNIV OF SCI & TECH BEIJING
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