Paradoxical Phenomena in Quasi-static Cyclic Loading-unloanding Compression Tests of Bulk metallic glasses

Home > Archive>Volume 46, Issue 9, 2017 >2577-2582

Paradoxical Phenomena in Quasi-static Cyclic Loading-unloanding Compression Tests of Bulk metallic glasses
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                        Han ZhenhuaHan Zhenhua
School of Materials Science and Engineering,Xi’ an University of Technology,Xi’ an
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Sun jinsongSun jinsong

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Yang xinYang xin
School of Materials Science and Engineering,Xi’ an University of Technology,Xi’ an
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Kang xintingKang xinting
Northwest Institude For Non-Ferrous Metal Research,Xi’ an
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Zhang guojunZhang guojun
School of Materials Science and Engineering,Xi’ an University of Technology,Xi’ an
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ZhangchangjunZhangchangjun

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Affiliation:School of Materials Science and Engineering,Xi’ an University of Technology,Xi’ an,,School of Materials Science and Engineering,Xi’ an University of Technology,Xi’ an,Northwest Institude For Non-Ferrous Metal Research,Xi’ an,School of Materials Science and Engineering,Xi’ an University of Technology,Xi’ an,
Clc Number:TB333
Fund Project:The National Natural Science Foundation of China [grant number 51401160、51504191], the China Postdoctoral Science Foundation[grant number 2015M582688], Nature Science Basic Research Plan in Shannxi Province of China [Program number 2015JQ5169、Z10-03081] and Science Research Plan Projects of Shannxi Province Education Department [Program number 14JK1533]

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Abstract:

The anelasticity behavior was investigated of Zr-based bulk metallic glasses in a geometrically constrained quasi-static cyclic loading–unloading compression tests. The results demonstrated that the dissipative energy during cycle loading was in inverse proportion to the cross-head displacement rate used, and the anelasticity behavior have close correlation with the elastic stress-induced microstructure evolution. The dissipative energy during cycle loading in BMGs could also be used as a parameter to characterize the spatial multiplication ability of shear bands. The larger dissipative energy implies the higher the spatial multiplication ability of shear bands.

Key words:Bulk;metallic glasses, Plastic;deformation, Shear;bands, Anelasticity, Free;volume

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[Han Zhenhua, Sun jinsong, Yang xin, Kang xinting, Zhang guojun, Zhangchangjun. Paradoxical Phenomena in Quasi-static Cyclic Loading-unloanding Compression Tests of Bulk metallic glasses[J]. Rare Metal Materials and Engineering,2017,46(9):2577~2582.]
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Received:November 15,2016
Revised:November 15,2016
Adopted:December 07,2016
Online: November 29,2017
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