Experimental characterization of shear transformation zones for plastic flow of bulk metallic glasses

D. Pan; A. Inoue; T. Sakurai; M. W. Chen

doi:10.1073/pnas.0806051105

Experimental characterization of shear transformation zones for plastic flow of bulk metallic glasses

D. Pan, A. Inoue, T. Sakurai, M. W. Chen

Research output: Contribution to journal › Article › peer-review

467 Citations (Scopus)

Abstract

We report experimental characterization of shear transformation zones (STZs) for plastic flow of bulk metallic glasses (BMGs) based on a newly developed cooperative shearing model [Johnson WL, Samwer K (2005) A universal criterion for plastic yielding of metallic glasses with a (T/T_g) ^2/3 temperature dependence. Phys Rev Lett 95: 195501]. The good agreement between experimental measurements and theoretical predictions in the STZ volumes provides compelling evidence that the plastic flow of metallic glasses occurs through cooperative shearing of unstable STZs activated by shear stresses. Moreover, the ductility of BMGs was found to intrinsically correlate with their STZ volumes. The experiments presented herein pave a way to gain a quantitative insight into the atomic-scale mechanisms of BMG mechanical behavior.

Original language	English
Pages (from-to)	14769-14772
Number of pages	4
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	105
Issue number	39
DOIs	https://doi.org/10.1073/pnas.0806051105
Publication status	Published - 2008 Sept 30
Externally published	Yes

Keywords

Cooperative shearing model
Mechanical property
Nanoindentation
Shear band
Strain rate sensitivity

ASJC Scopus subject areas

General

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10.1073/pnas.0806051105

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abstract = "We report experimental characterization of shear transformation zones (STZs) for plastic flow of bulk metallic glasses (BMGs) based on a newly developed cooperative shearing model [Johnson WL, Samwer K (2005) A universal criterion for plastic yielding of metallic glasses with a (T/Tg) 2/3 temperature dependence. Phys Rev Lett 95: 195501]. The good agreement between experimental measurements and theoretical predictions in the STZ volumes provides compelling evidence that the plastic flow of metallic glasses occurs through cooperative shearing of unstable STZs activated by shear stresses. Moreover, the ductility of BMGs was found to intrinsically correlate with their STZ volumes. The experiments presented herein pave a way to gain a quantitative insight into the atomic-scale mechanisms of BMG mechanical behavior.",

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T1 - Experimental characterization of shear transformation zones for plastic flow of bulk metallic glasses

AU - Pan, D.

AU - Inoue, A.

AU - Sakurai, T.

AU - Chen, M. W.

PY - 2008/9/30

Y1 - 2008/9/30

N2 - We report experimental characterization of shear transformation zones (STZs) for plastic flow of bulk metallic glasses (BMGs) based on a newly developed cooperative shearing model [Johnson WL, Samwer K (2005) A universal criterion for plastic yielding of metallic glasses with a (T/Tg) 2/3 temperature dependence. Phys Rev Lett 95: 195501]. The good agreement between experimental measurements and theoretical predictions in the STZ volumes provides compelling evidence that the plastic flow of metallic glasses occurs through cooperative shearing of unstable STZs activated by shear stresses. Moreover, the ductility of BMGs was found to intrinsically correlate with their STZ volumes. The experiments presented herein pave a way to gain a quantitative insight into the atomic-scale mechanisms of BMG mechanical behavior.

AB - We report experimental characterization of shear transformation zones (STZs) for plastic flow of bulk metallic glasses (BMGs) based on a newly developed cooperative shearing model [Johnson WL, Samwer K (2005) A universal criterion for plastic yielding of metallic glasses with a (T/Tg) 2/3 temperature dependence. Phys Rev Lett 95: 195501]. The good agreement between experimental measurements and theoretical predictions in the STZ volumes provides compelling evidence that the plastic flow of metallic glasses occurs through cooperative shearing of unstable STZs activated by shear stresses. Moreover, the ductility of BMGs was found to intrinsically correlate with their STZ volumes. The experiments presented herein pave a way to gain a quantitative insight into the atomic-scale mechanisms of BMG mechanical behavior.

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KW - Mechanical property

KW - Nanoindentation

KW - Shear band

KW - Strain rate sensitivity

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Experimental characterization of shear transformation zones for plastic flow of bulk metallic glasses

Abstract

Keywords

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