On the 101̅2 twinning growth mechanism in hexagonal close-packed metals

IF 7.9 2区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

Materials & Design Pub Date : 2016-04-15 DOI:10.1016/j.matdes.2016.02.002

Jian Tu, Songquan Zhang

引用次数: 44

Abstract

Besides coordinating plastic deformation, the frequently observed $(10 \overset{̅}{1} 2)$ twins can cause the change of microstructure and texture of hexagonal close-packed (HCP) metals, influencing the mechanical properties. Thus, understanding $(10 \overset{̅}{1} 2)$ twinning mechanism is essential. In this paper, we review the recent basic research on $(10 \overset{̅}{1} 2)$ twinning growth process by experiments, modeling and theory. The structural characterization of $(10 \overset{̅}{1} 2)$ twinning boundaries and exploring $(10 \overset{̅}{1} 2)$ twinning growth mechanism are summarized in detail. Finally, for this research topic, a few critical scientific problems and further works on deformation twinning in HCP metals are proposed.

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六方密排金属101′2孪晶生长机制的探讨

除了协调塑性变形外，经常观察到的101 2孪晶还会引起六边形密堆积金属的组织和织构的变化，从而影响其力学性能。因此，了解101′2孪生机制是必要的。本文从实验、模型和理论三个方面综述了近年来101′2孪晶生长过程的基础研究。综述了101′2孪晶边界的结构特征和101′2孪晶生长机制的探索。最后，针对本课题提出了HCP金属变形孪晶的几个关键科学问题和进一步的研究工作。

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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来源期刊

Materials & Design Engineering-Mechanical Engineering

CiteScore

14.30

自引率

7.10%

发文量

1028

审稿时长

85 days

期刊介绍： Materials and Design is a multi-disciplinary journal that publishes original research reports, review articles, and express communications. The journal focuses on studying the structure and properties of inorganic and organic materials, advancements in synthesis, processing, characterization, and testing, the design of materials and engineering systems, and their applications in technology. It aims to bring together various aspects of materials science, engineering, physics, and chemistry. The journal explores themes ranging from materials to design and aims to reveal the connections between natural and artificial materials, as well as experiment and modeling. Manuscripts submitted to Materials and Design should contain elements of discovery and surprise, as they often contribute new insights into the architecture and function of matter.