Solving the puzzle of hierarchical martensitic microstructures in NiTi by (111)-oriented epitaxial films

IF 8.1 2区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY Materials Today Advances Pub Date : 2023-11-18 DOI:10.1016/j.mtadv.2023.100441

Klara Lünser, Andreas Undisz, Martin F.-X. Wagner, Kornelius Nielsch, Sebastian Fähler

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Abstract

The martensitic microstructure decides on the functional properties of shape memory alloys. However, for the most commonly used alloy, NiTi, it is still unclear how its microstructure is built up because the analysis is hampered by grain boundaries of polycrystalline samples. Here, we eliminate grain boundaries by using epitaxially grown films in (111)_B2 orientation. By combining scale-bridging microscopy with integral inverse pole figures, we solve the puzzle of the hierarchical martensitic microstructure. We identify two martensite clusters as building blocks and three kinds of twin boundaries. Nesting them at different length scales explains why habit plane variants with ${⟨ 011 ⟩}_{B 19^{'}}$ twin boundaries and {942} habit planes are dominant; but also some incompatible interfaces occur. Though the observed hierarchical microstructure agrees with the phenomenological theory of martensite, the transformation path decides which microstructure forms. The combination of local and global measurements with theory allows solving the scale bridging 3D puzzle of the martensitic microstructure in NiTi exemplarily for epitaxial films.

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用(111)取向外延膜解决镍钛中分层马氏体微观结构难题

马氏体组织决定了形状记忆合金的功能性能。然而，对于最常用的合金NiTi，由于分析受到多晶样品晶粒边界的阻碍，其微观结构是如何建立的仍然不清楚。在这里，我们通过使用(111)B2取向的外延生长薄膜来消除晶界。将尺度桥接显微镜与积分反极图相结合，解决了马氏体分层显微结构的难题。我们确定了两种马氏体簇作为构建块和三种孪生边界。以不同的长度尺度嵌套它们解释了为什么⟨011⟩B19'双边界和{942}习惯面变体占主导地位;但也会出现一些不兼容的接口。虽然观察到的分层组织符合马氏体现象学理论，但相变路径决定了形成的微观组织。局部和全局测量与理论的结合可以解决镍钛中马氏体微观结构的尺度桥接3D难题，例如用于外延薄膜。

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来源期刊

Materials Today Advances MATERIALS SCIENCE, MULTIDISCIPLINARY-

CiteScore

14.30

自引率

2.00%

发文量

116

审稿时长

32 days

期刊介绍： Materials Today Advances is a multi-disciplinary, open access journal that aims to connect different communities within materials science. It covers all aspects of materials science and related disciplines, including fundamental and applied research. The focus is on studies with broad impact that can cross traditional subject boundaries. The journal welcomes the submissions of articles at the forefront of materials science, advancing the field. It is part of the Materials Today family and offers authors rigorous peer review, rapid decisions, and high visibility.