Superelasticity of TiNi thin films induced by cyclic nanoindentation deformation at nanoscale

Guanjun Pan; Zhenhua Cao; Mingzhen Wei; Lijun Xu; Jun Shi; Xiangkang Meng

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Superelasticity of TiNi thin films induced by cyclic nanoindentation deformation at nanoscale

机译：纳米尺度的循环纳米压痕变形引起的TiNi薄膜超弹性

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Cyclic deformation behavior of submicron-thick austenitic TiNi film at nanoscale was studied by nanoindentation. It was found that excellent superelasticity was achieved and stabilized after certain times of indentation deformation, and lower loading would require more deformation cycles to achieve superelasticity stabilization. Loss of superelasticity was attributed to the lower yield strength of austenite than the critical stress required for stress-induced martensitic transformation. Both introduced dislocations and grain growth during cyclic deformations contributed to the superelasticity and its steady-state achievement.

机译：通过纳米压痕研究了亚微米级奥氏体TiNi膜的纳米级循环变形行为。发现在一定时间的压痕变形之后获得并稳定了优异的超弹性，并且较低的载荷将需要更多的变形周期来实现超弹性的稳定。超弹性的损失归因于奥氏体的屈服强度低于应力诱发的马氏体相变所需的临界应力。周期性变形过程中引入的位错和晶粒长大都有助于超弹性及其稳态的实现。

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来源
《Materials Science and Engineering》 |2014年第10期|8-11|共4页
作者
Guanjun Pan; Zhenhua Cao; Mingzhen Wei; Lijun Xu; Jun Shi; Xiangkang Meng;
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作者单位

Institute of Materials Engineering, National Laboratory of Solid State Microstructures and College of Engineering and Applied Sciences, Nanjing University, Jiangsu, China;

Institute of Materials Engineering, National Laboratory of Solid State Microstructures and College of Engineering and Applied Sciences, Nanjing University, Jiangsu, China;

Institute of Materials Engineering, National Laboratory of Solid State Microstructures and College of Engineering and Applied Sciences, Nanjing University, Jiangsu, China;

Institute of Materials Engineering, National Laboratory of Solid State Microstructures and College of Engineering and Applied Sciences, Nanjing University, Jiangsu, China;

Institute of Materials Engineering, National Laboratory of Solid State Microstructures and College of Engineering and Applied Sciences, Nanjing University, Jiangsu, China;

Institute of Materials Engineering, National Laboratory of Solid State Microstructures and College of Engineering and Applied Sciences, Nanjing University, Jiangsu, China;

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正文语种 eng
中图分类
关键词
Superelasticity; Phase transformation; Shape memory alloy; Cyclic deformation;

机译：超弹性;相变;形状记忆合金;循环变形;

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专利

1. Superelastic deformation of a TiNi shape memory alloy subjected to various cyclic loadings [J] . J M Gong, H Tobushi, K Takata, Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications . 2002,第1期

机译：TiNi形状记忆合金在各种循环载荷下的超弹性变形
2. Direct joule's heat crystallization treatment of TiNi thin film micro actuator -Deformation characteristics and crystal structure of reversible TiNi thin film- [J] . Katsutoshi Kuribayashi, Seiji Shimizu, Masaaki Yoshitake 精密工学会誌 . 1997,第6期

机译：TiNi薄膜微致动器的直接焦耳热结晶处理-可逆TiNi薄膜的变形特性和晶体结构-
3. Characteristics of shape memory and superelasticity for TiNi thin films [J] . HE Zhi-rong, S. Miyazaki Transactions of Nonferrous Metals Society of China . 2000,第3期

机译：TiNi薄膜的形状记忆特性和超弹性
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机译：TiNi形状记忆合金的循环超弹性变形
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6. Cathodoluminescence and Cross-sectional Transmission Electron Microscopy Studies for Deformation Behaviors of GaN Thin Films Under Berkovich Nanoindentation [O] . Sheng-Rui Jian, I-Ju Teng, Jian-Ming Lu 2008

机译：阴极发光和截面透射电镜研究Berkovich纳米压痕下GaN薄膜的形变行为
7. Cyclic Nanoindentation and Nano-Impact Fatigue Mechanisms of Functionally Graded TiN/TiNi Film [O] . N. H. Faisal, Anil K. Prathuru, Saurav Goel, 2017

机译：功能梯度TiN / TiNi薄膜的循环纳米压痕和纳米冲击疲劳机理
8. Cyclic Deformation of Thin Films inside the Electron Microscope [R] . Tuley, F. H., Wilkov, M. A. 1964

机译：电子显微镜内薄膜的循环变形

Superelasticity of TiNi thin films induced by cyclic nanoindentation deformation at nanoscale

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