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Deformation behavior of Fe-based bulk metallic glass during nanoindentation

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【Author】 LI Lei1,LIU Yuan1,ZHANG TaiHua2,GU JianSheng1 & WEI BingChen1 1 National Microgravity Laboratory,Institute of Mechanics,Chinese Academy of Sciences,Beijing 100080,China; 2 State Key Laboratory of Nonlinear Mechanics (LNM),Institute of Mechanics,Chinese Academy of Sci-ences,Beijing 100080,China

【摘要】 Fe-based bulk metallic glasses (BMGs) normally exhibit super high strength but significant brittleness at ambient temperature. Therefore,it is difficult to investigate the plastic deformation behavior and mechanism in these alloys through conven-tional tensile and compressive tests due to lack of distinct macroscopic plastic strain. In this work,the deformation behavior of Fe52Cr15Mo9Er3C15B6 BMG was in-vestigated through instrumented nanoindentation and uniaxial compressive tests. The results show that serrated flow,the typical plastic deformation feature of BMGs,could not be found in as-cast and partially crystallized samples during nanoinden-tation. In addition,the deformation behavior and mechanical properties of the alloy are insensitive to the applied loading rate. The mechanism for the appearance of the peculiar deformation behavior in the Fe-based BMG is discussed in terms of the temporal and spatial characteristics of shear banding during nanoindentation.

【Abstract】 Fe-based bulk metallic glasses (BMGs) normally exhibit super high strength but significant brittleness at ambient temperature. Therefore,it is difficult to investigate the plastic deformation behavior and mechanism in these alloys through conven-tional tensile and compressive tests due to lack of distinct macroscopic plastic strain. In this work,the deformation behavior of Fe52Cr15Mo9Er3C15B6 BMG was in-vestigated through instrumented nanoindentation and uniaxial compressive tests. The results show that serrated flow,the typical plastic deformation feature of BMGs,could not be found in as-cast and partially crystallized samples during nanoinden-tation. In addition,the deformation behavior and mechanical properties of the alloy are insensitive to the applied loading rate. The mechanism for the appearance of the peculiar deformation behavior in the Fe-based BMG is discussed in terms of the temporal and spatial characteristics of shear banding during nanoindentation.

【基金】 the National Natural Science Foundation of China (Grant Nos. 50571109, 10572142 and 50771102) ;the National Basic Research Program of China (973 Program)(Grant No. 2007CB613900)
  • 【文献出处】 Science in China(Series G:Physics,Mechanics & Astronomy) ,中国科学(G辑:物理学 力学 天文学)(英文版) , 编辑部邮箱 ,2008年04期
  • 【分类号】O341
  • 【被引频次】3
  • 【下载频次】37
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