通过超声纳米晶表面改性诱导NiTi合金表面非晶化以改善机械性能。

Surface amorphization of NiTi alloy induced by Ultrasonic Nanocrystal Surface Modification for improved mechanical properties.

作者信息

Ye Chang, Zhou Xianfeng, Telang Abhishek, Gao Hongyu, Ren Zhencheng, Qin Haifeng, Suslov Sergey, Gill Amrinder S, Mannava S R, Qian Dong, Doll Gary L, Martini Ashlie, Sahai Nita, Vasudevan Vijay K

机构信息

Department of Mechanical Engineering, University of Akron, Akron, OH 44325, United States.

Department of Mechanical Engineering, University of Akron, Akron, OH 44325, United States; Department of Polymer Science, University of Akron, Akron, OH 44325, United States.

出版信息

J Mech Behav Biomed Mater. 2016 Jan;53:455-462. doi: 10.1016/j.jmbbm.2015.09.005. Epub 2015 Sep 12.

DOI:10.1016/j.jmbbm.2015.09.005

PMID:26410178

Abstract

We report herein the effects of Ultrasonic Nano-crystal Surface Modification (UNSM), a severe surface plastic deformation process, on the microstructure, mechanical (hardness, wear), wettability and biocompatibility properties of NiTi shape memory alloy. Complete surface amorphization of NiTi was achieved by this process, which was confirmed by X-ray diffraction and high-resolution transmission electron microscopy. The wear resistance of the samples after UNSM processing was significantly improved compared with the non-processed samples due to increased surface hardness of the alloy by this process. In addition, cell culture study demonstrated that the biocompatibility of the samples after UNSM processing has not been compromised compared to the non-processed sample. The combination of high wear resistance and good biocompatibility makes UNSM an appealing process for treating alloy-based biomedical devices.

摘要

我们在此报告超声纳米晶表面改性（UNSM）这一严重表面塑性变形过程对镍钛形状记忆合金的微观结构、机械性能（硬度、磨损）、润湿性和生物相容性的影响。通过该过程实现了镍钛合金的完全表面非晶化，这通过X射线衍射和高分辨率透射电子显微镜得到证实。由于该过程提高了合金的表面硬度，与未处理的样品相比，UNSM处理后的样品的耐磨性显著提高。此外，细胞培养研究表明，与未处理的样品相比，UNSM处理后的样品的生物相容性并未受到损害。高耐磨性和良好生物相容性的结合使UNSM成为处理基于合金的生物医学装置的一种有吸引力的工艺。

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通过超声纳米晶表面改性诱导NiTi合金表面非晶化以改善机械性能。

Surface amorphization of NiTi alloy induced by Ultrasonic Nanocrystal Surface Modification for improved mechanical properties.

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