Martensitic Transformations : Microstructures and Uniaxial Stress, Magnetic Field and Hydrostatic Pressure Effects

K. Shimizu
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引用次数: 4

Abstract

Microstructures in martensites and effects of uniaxial stress, magnetic field and hydrostatic pressure on martensitic transformations, which were investigated by the author, are briefly summarized. Unsolved problems related to this investigation are pointed out and some ideas are proposed to solve the problems. Interactions between lattices and electrons should be clarified in order to establish the cause of martensitic transformation. In particular, the exact electronic band structure at Brillouin zone boundaries should be delineated, and whether martensitic nuclei are indeed grown from precursory strained regions in matrix phases should be clarified. How the precursory strained region is related to the lattice invariant strain considered in the phenomenological crystallographic theory for martensitic transformations and actually observed by TEM should also be clarified. Some other future research subjects, such as the effects of uniaxial stress, magnetic field and hydrostatic pressure on martensitic transformations, and various related functions, such as shape memory effect and superelasticity, are further pointed out.
马氏体相变:微观结构和单轴应力、磁场和静水压力效应
简要总结了作者所研究的马氏体组织以及单轴应力、磁场和静水压力对马氏体相变的影响。指出了研究中存在的问题,并提出了解决问题的思路。为了确定马氏体相变的原因,晶格和电子之间的相互作用应该被澄清。特别是,在布里渊带边界处精确的电子带结构应该被描绘出来,并且马氏体核是否确实是从基体相的前兆应变区生长出来的应该被澄清。前兆应变区与马氏体相变的现象晶体学理论中考虑的晶格不变应变之间的关系以及TEM实际观察到的关系也需要澄清。进一步指出了今后的研究方向,如单轴应力、磁场和静水压力对马氏体相变的影响,以及形状记忆效应和超弹性等相关功能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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