Recent Developments in Mechanisms and the Kinetics of Deformation Twinning in Titanium Alloys

机译：钛合金变形孪晶形成机理和动力学的最新进展

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Within the past decade, it has been shown that twinning in a, P, and a + p titanium alloys can occur at speeds much lower than the speed of sound by many orders of magnitude. This is related to the twinning deformation mechanisms controlled by the diffusion of oxygen as compared to simply a shear process. Very recent developments, such as strain-rate effects on twinning, support a recent hypothesis that the twinning in these materials is controlled by a slow diffusion process, resulting in time-dependent twinning. These recent developments, along with the ramifications of the findings will be outlined in this article.

机译：在过去的十年中，事实表明，a，P和a + p钛合金中的孪晶可以比声速低很多数量级的速度发生。与简单的剪切过程相比，这与受氧扩散控制的孪生形变机理有关。最近的发展，例如应变速率对孪晶的影响，支持了一种新的假说，即这些材料中的孪晶受缓慢扩散过程控制，从而导致时间依赖性的孪晶。本文将概述这些最新进展以及发现的后果。

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《PRICM 7;Pacific Rim International Conference on Advanced Materials and Processing》|2011年|p.863-866|共4页
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Zane Wyatt; SreeramamurthyAnkem;
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中图分类工程材料一般性问题;
关键词
deformation; deformation twinning; titanium alloys; strain-rate sensitivity;

机译：形变;变形孪晶钛合金应变率敏感性;

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Recent Developments in Mechanisms and the Kinetics of Deformation Twinning in Titanium Alloys

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