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Effect of high pressure during the fabrication on the thermal and mechanical properties of amorphous Ni60Nb40 particle-reinforced Al-based metal matrix composites

机译：制造过程中的高压对非晶态Ni60Nb40颗粒增强Al基金属基复合材料热力学性能的影响

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Ni60Nb40 metallic glass particles, prepared by mechanical alloying, were used to fabricate Al–30 wt% Ni60Nb40 metal matrix composites (MMCs) at 823 K by sintering, hot pressing, and hot extrusion. The Ni60Nb40 reinforcements remained amorphous in all the MMCs fabricated by the different methods. Compression tests revealed that the Young’s modulus and yield strength of the MMCs produced by hot-pressing and hot-extrusion are higher than those for the sintered specimens. Differential scanning calorimeter (DSC) annealing of the as-produced MMCs at 913 K revealed there are severe interfacial reactions between the Al matrix and the Ni60Nb40 reinforcements. The DSC isotherms indicate that the Al matrix reacts faster with Ni60Nb40 in the hot-pressed and hot-extruded MMCs than it does in the sintered material.

机译：通过机械合金化制备的Ni60Nb40金属玻璃颗粒被用于通过烧结，热压和热挤压在823 K时制备Al-30wt％的Ni60Nb40金属基复合材料（MMC）。在通过不同方法制造的所有MMC中，Ni60Nb40增强材料均保持非晶态。压缩测试表明，通过热压和热挤压生产的MMC的杨氏模量和屈服强度高于烧结样品。所生产的MMC在913 K下的差示扫描量热仪（DSC）退火表明，Al基体与Ni60Nb40增强材料之间存在严重的界面反应。 DSC等温线表明，在热压和热挤压的MMC中，Al基体与Ni60Nb40的反应比在烧结材料中的反应更快。

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Yu, Peng; Venkataraman, Shankar; Das, Jayanta; Zhang, LaiChang; Zhang, Wenyong; Eckert, Jurgen;
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机译：制备过程中的高压对非晶态Ni_（60）Nb_（40）颗粒增强Al基金属基复合材料热力学性能的影响
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Effect of high pressure during the fabrication on the thermal and mechanical properties of amorphous Ni60Nb40 particle-reinforced Al-based metal matrix composites

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