材料科学
延展性(地球科学)
断裂韧性
耐火材料(行星科学)
合金
复合材料
韧性
极限抗拉强度
断裂(地质)
冶金
蠕动
作者
David H. Cook,Punit Kumar,Madelyn Payne,Calvin H. Belcher,Pedro P.P.O. Borges,Wenqing Wang,Flynn Walsh,Zehao Li,Arun Devaraj,Mingwei Zhang,Mark Asta,Andrew M. Minor,Enrique J. Lavernia,Diran Apelian,Robert O. Ritchie
出处
期刊:Science
[American Association for the Advancement of Science]
日期:2024-04-11
卷期号:384 (6692): 178-184
被引量:47
标识
DOI:10.1126/science.adn2428
摘要
Single-phase body-centered cubic (bcc) refractory medium- or high-entropy alloys can retain compressive strength at elevated temperatures but suffer from extremely low tensile ductility and fracture toughness. We examined the strength and fracture toughness of a bcc refractory alloy, NbTaTiHf, from 77 to 1473 kelvin. This alloy's behavior differed from that of comparable systems by having fracture toughness over 253 MPa·m
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