Strengthening mechanism and biocompatibility of degradable Zn-Mn alloy with different Mn content

doi:10.1016/j.mtcomm.2022.103639

	Strengthening mechanism and biocompatibility of degradable Zn-Mn alloy with different Mn content
	Zhu, Xinglong1,2,3 ; Ren, Tiantian 4; Guo, Pushan 1; Yang, Lijing 1; Shi, Yixuan 1; Sun, Wensheng 5; Song, Zhenlun 1
	2022-06
发表期刊	MATERIALS TODAY COMMUNICATIONS
ISSN	/
EISSN	2352-4928
卷号	31
发表状态	已发表
DOI	10.1016/j.mtcomm.2022.103639
摘要	In this study, the mechanical properties and biocompatibility of Zn-Mn alloys with different Mn contents have been investigated. The results show that the grain size of the Zn-Mn alloys decreases with the increasing Mn content and the second phase MnZn13 precipitates when Mn content is over 0.3 wt%. The elongation increases with the increase of Mn content while Zn-0.3Mn achieves maximum yielding strength and tensile strength ultimate tensile strength. The mechanical properties are dominated by solid solution effect when the Mn content is lower than 0.15 wt% while the effects of grain refinement and precipitation strengthening become remarkable with the Mn content increasing to 0.3 wt%. When the Mn content increases to 0.5 wt%, the tensile strength of the alloy remains unchanged while the elongation is further increased by grain boundary sliding due to further grain refinement and reduced dislocation density. Immersion tests show decreasing Zn2+ and increasing Mn2+ concentrations in extract, leading to lower cytotoxicity and better cell proliferation. The Zn-0.5Mn alloy exhibits a maximum comprehensive mechanical property as well as in vitro / in vivo biocompatibility with an implication for biomedical implant applications. © 2022 Elsevier Ltd
关键词	Biocompatibility Grain boundary sliding Grain refinement Grain size and shape Manganese alloys Tensile strength Zinc alloys Grain refinement strengthening Grainsize Mechanical biocompatibility Mn content Precipitation strengthening Second phase Solution effects Strengthening mechanisms Ultimate tensile strength Yielding strength
收录类别	SCIE ; EI
语种	英语
出版者	Elsevier Ltd
EI入藏号	20222012107997
EI主题词	Binary alloys
EI分类号	461.9.1 Immunology ; 543.2 Manganese and Alloys ; 546.3 Zinc and Alloys ; 933 Solid State Physics
原始文献类型	Journal article (JA)
引用统计	正在获取...
文献类型	期刊论文
条目标识符	https://kms.shanghaitech.edu.cn/handle/2MSLDSTB/183408
专题	物质科学与技术学院_博士生
通讯作者	Yang, Lijing
作者单位	1.Key Laboratory of Marine Materials and Related Technologies, Zhejiang Key Laboratory of Marine Materials and Protective Technologies, Ningbo Institute of Materials Technology and Engineering, Chinese Academy of Sciences, Ningbo; 315201, China; 2.School of Physical Science and Technology, Shanghai Tech University, Shanghai; 201210, China; 3.University of Chinese Academy of Sciences, Beijing; 100049, China; 4.Ningbo First Hospital, Ningbo; 315010, China; 5.Ningbo Powerway Alloy Material Co., LTD, Ningbo; 315145, China
第一作者单位	物质科学与技术学院
推荐引用方式 GB/T 7714	Zhu, Xinglong,Ren, Tiantian,Guo, Pushan,et al. Strengthening mechanism and biocompatibility of degradable Zn-Mn alloy with different Mn content[J]. MATERIALS TODAY COMMUNICATIONS,2022,31.
APA	Zhu, Xinglong.,Ren, Tiantian.,Guo, Pushan.,Yang, Lijing.,Shi, Yixuan.,...&Song, Zhenlun.(2022).Strengthening mechanism and biocompatibility of degradable Zn-Mn alloy with different Mn content.MATERIALS TODAY COMMUNICATIONS,31.
MLA	Zhu, Xinglong,et al."Strengthening mechanism and biocompatibility of degradable Zn-Mn alloy with different Mn content".MATERIALS TODAY COMMUNICATIONS 31(2022).