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Licensed Unlicensed Requires Authentication Published by De Gruyter November 5, 2021

Improved in-vitro biocompatibility of LZ91 Mg–Li alloy by formation of nanostructured Ti coating through surface mechanical nano-alloying treatment

  • Jian Sun EMAIL logo , Xiangcun Zhu , Zhuo Chen , Yi Li and Yonghong Zhang EMAIL logo

Abstract

Surface mechanical nano-alloying treatment (SMNAT) was employed to fabricate a nanostructured Ti coating on LZ91 Mg–Li alloy. Microstructure, surface hardness and in-vitro biocompatibility of the Ti-coated sample were investigated in comparison with those of an untreated sample. Experimental results showed that a nanostructured Ti coating with a thickness of 35 to 60 μm was formed after SMNAT for 2 h. The average grain size in the top surface of the Ti coating was about 30 nm. The surface of the Ti coating is rougher than that of the untreated LZ91 sample, in which the values of Ra, Rq and Rz were 7.83, 9.57 and 14.85 μm, respectively. The hardness of the Ti coating top surface was about 483 HV. Cell proliferation and differentiation on Ti coated samples were enhanced relative to those on the untreated samples.


Professor Dr. Jian Sun Department of Materials Science and Engineering HeFei University of Technology Hefei Anhui, 230009 P. R. China Tel.: +86 551 62904557 Fax: +86 551 62904557
Professor Dr. Yonghong Zhang The first affiliated Hospital of Anhui Medical University Anhui Medical University Hefei Anhui, 230009 P. R. China Tel.: +86 551 62904557 Fax: +86 551 62904557

Funding statement: This work was financially supported by the National Natural Science Foundation of China (51701057), the Fundamental Research Funds for the Central Universities (JZ2018HGTB0265), the Fund of Anhui Kelante Co., Ltd (W2020JSKF0061), the Industrial Guiding Fund of Changfeng County and Hefei University of Technology (JZ2019QTXM0281), and the Fund of Anhui Wanan Co., Ltd (W2019JSKF0210).

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Received: 2021-01-03
Accepted: 2021-07-20
Published Online: 2021-11-05

© 2021 Walter de Gruyter GmbH, Berlin/Boston, Germany

Downloaded on 29.3.2024 from https://www.degruyter.com/document/doi/10.1515/ijmr-2021-8197/pdf
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