【摘 要】
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In the current work,biodegradable Fe-30Mn-XAg (X=1,2,5,10 wt%) alloys were prepared by the rapid solidification with copper-mold-casting technology.Phase analysis demonstrates that Fe-30Mn-XAg alloys consist of austenite γ phase with a fcc structure and m
【机 构】
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School of Materials and Energy, Southwest University,Chongqing 400715, China
论文部分内容阅读
In the current work,biodegradable Fe-30Mn-XAg (X=1,2,5,10 wt%) alloys were prepared by the rapid solidification with copper-mold-casting technology.Phase analysis demonstrates that Fe-30Mn-XAg alloys consist of austenite γ phase with a fcc structure and martensite e phase with a hcp structure.The yield strength of the samples increases with increasing Ag contents.Compared with Fe-30Mn alloy,the degradation rates of Fe-30Mn-XAg in Hank\'s solution are significantly improved.Cytotoxicity evaluation reveals that the Fe-30Mn-lAg and Fe-30Mn-2Ag alloys perform less toxicity on the Human Umbilical Vein Endothelial Cells (HUVEC),while Fe-30Mn-5Ag and Fe-30Mn-10Ag alloys perform no toxicity on it.The contact angles of deionized water on the Fe-30Mn-XAg alloy surface were ranged from 55° to 69°,which is beneficial to the adhesion and growth of the cells.Besides,the addition of Ag leads to a much lower M/H slope,particularly for the Fe-30Mn-5Ag alloy exhibiting a non-magnetic property as SS316L.Therefore,the present Fe-30Mn-XAg alloys would be potential candidates for degradable metals.
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