铝和镍对 Fe-Mn-Al-C 低密度钢微结构演变和力学性能的协同效应

Metals Pub Date : 2024-04-24 DOI:10.3390/met14050495
Xiaodong Lv, Xuejiao Wang, Aidong Lan, J. Qiao
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引用次数: 0

摘要

本研究调查了两种低密度钢(Fe-26Mn-10.2Al-0.98C-0.15V(重量百分比)和 Fe-29Mn-5Al-1C-12Ni(重量百分比))中镍和铝的协同行为及其对微观结构和机械性能的影响。阐明了κ-碳化物和 B2 沉淀颗粒的化学成分与退火和老化温度的函数关系,以及它们在其中形成的基体。根据两种钢的强化作用研究了它们的微观结构和变形机制。Fe-26Mn-10.2Al-0.98C-0.15V钢主要通过κ-碳化物实现了沉淀强化,并通过充分再结晶实现了晶界强化。Fe-29Mn-5Al-1C-12Ni钢引起的强化主要是由于基体中存在与FCC不相贯的B2相。这导致了奥罗万旁路机制,使沉淀强化成为主要的强化贡献。当发生平面位错滑移时,协同效应导致两种钢的剪切或旁路机制。此外,它还对塑性变形过程中的加工硬化能力产生了影响。这项研究为通过镍和铝的协同效应进一步提高低密度奥氏体钢的屈服强度提供了一条可行的途径。
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Synergistic Effect of Al and Ni on Microstructure Evolutions and Mechanical Properties of Fe-Mn-Al-C Low-Density Steels
In this study, the synergistic behavior of Ni and Al in two low-density steels (Fe-26Mn-10.2Al-0.98C-0.15V (wt. %) and Fe-29Mn-5Al-1C-12Ni (wt. %)) and their influence on microstructures and mechanical properties were investigated. The chemical composition of κ-carbides and B2 precipitated particles as a function of annealing and aging temperature and the matrix within which they formed were elucidated. The microstructures and deformation mechanisms of both steels were studied based on their strengthening contribution. The Fe-26Mn-10.2Al-0.98C-0.15V steel mainly realized precipitation strengthening through κ-carbides and grain boundary strengthening due to full recrystallization. The strengthening caused by Fe-29Mn-5Al-1C-12Ni steel was mainly due to the presence of the B2 phase in the matrix, which was non-coherent with FCC. This led to the Orowan bypass mechanism, which made precipitation strengthening the main strengthening contribution. The synergistic effect led to the shear or bypass mechanism of both steels when plane dislocation slip occurred. In addition, it also had an influence on the work-hardening capability during plastic deformation. This study provides a promising way to further enhance the yield strength of low-density austenitic steels through the synergistic effect of Ni and Al.
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