Seungyeon Lee, K. Kim, Ji-Hun Yu, Hyoung-Seop Kim, J. Bae, Jeong-Min Park
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引用次数: 0
摘要
具有优异拉伸性能的铁-中熵合金(FeMEA)的出现为基于易变工程的合金设计提供了一个潜在的方向。在本研究中,利用金属增材制造技术激光粉末床熔融(LPBF)成功制造出了铁-中熵合金(FeMEA)。在室温和低温(77 K)下对 LPBF 加工的 FeMEA 进行了拉伸试验。在 77 K 温度下,LPBF 加工的 FeMEA 通过主动变形诱导的马氏体转变表现出较高的屈服强度和优异的极限拉伸强度。此外,由于基于纳米尺度溶质异质性的 LPBF 加工铁甲醇的面心立方(FCC)相稳定性较低,因此会发生应力诱导的马氏体转变,并伴随着低温拉伸变形过程中屈服点现象的出现。本研究阐明了屈服点现象的起源和铁金属氧化物在 77 K 时的变形行为。
Cryogenic Tensile Behavior of Ferrous Medium-entropy Alloy Additively Manufactured by Laser Powder Bed Fusion
The emergence of ferrous-medium entropy alloys (FeMEAs) with excellent tensile properties represents a potential direction for designing alloys based on metastable engineering. In this study, an FeMEA is successfully fabricated using laser powder bed fusion (LPBF), a metal additive manufacturing technology. Tensile tests are conducted on the LPBF-processed FeMEA at room temperature and cryogenic temperatures (77 K). At 77 K, the LPBF-processed FeMEA exhibits high yield strength and excellent ultimate tensile strength through active deformation-induced martensitic transformation. Furthermore, due to the low stability of the face-centered cubic (FCC) phase of the LPBF-processed FeMEA based on nano-scale solute heterogeneity, stress-induced martensitic transformation occurs, accompanied by the appearance of a yield point phenomenon during cryogenic tensile deformation. This study elucidates the origin of the yield point phenomenon and deformation behavior of the FeMEA at 77 K.
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