Identifying the high entropy effect on plastic dynamics in bulk metallic glasses: A nanoindentation study at room and elevated temperatures

Identifying the high entropy effect on plastic dynamics in bulk metallic glasses: A nanoindentation study at room and elevated temperatures

In this study, the spatiotemporal dynamic analyses of intermittent plastic flow in the nanoindentation of different Bulk metallic glasses (BMGs), at various temperatures, were carefully performed to provide insight into the amorphous structural-property relationship. Based on the displacement-time s...

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Main Authors: Qing Zhou, Yin Du, Weichao Han, Qian Jia, Yuyu Deng, Haifeng Wang
Format: Article
Language:English
Published: Elsevier 2020-04-01
Series:Materials & Design
Online Access:http://www.sciencedirect.com/science/article/pii/S0264127520300332
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spelling doaj-a63ee583030c47b38846ede792655d3e2020-11-25T02:16:37ZengElsevierMaterials & Design0264-12752020-04-01189Identifying the high entropy effect on plastic dynamics in bulk metallic glasses: A nanoindentation study at room and elevated temperaturesQing Zhou0Yin Du1Weichao Han2Qian Jia3Yuyu Deng4Haifeng Wang5Corresponding authors.; State Key Laboratory of Solidification Processing, Center of Advanced Lubrication and Seal Materials, Northwestern Polytechnical University, Xi'an, Shanxi 710072, PR ChinaState Key Laboratory of Solidification Processing, Center of Advanced Lubrication and Seal Materials, Northwestern Polytechnical University, Xi'an, Shanxi 710072, PR ChinaState Key Laboratory of Solidification Processing, Center of Advanced Lubrication and Seal Materials, Northwestern Polytechnical University, Xi'an, Shanxi 710072, PR ChinaState Key Laboratory of Solidification Processing, Center of Advanced Lubrication and Seal Materials, Northwestern Polytechnical University, Xi'an, Shanxi 710072, PR ChinaState Key Laboratory of Solidification Processing, Center of Advanced Lubrication and Seal Materials, Northwestern Polytechnical University, Xi'an, Shanxi 710072, PR ChinaCorresponding authors.; State Key Laboratory of Solidification Processing, Center of Advanced Lubrication and Seal Materials, Northwestern Polytechnical University, Xi'an, Shanxi 710072, PR ChinaIn this study, the spatiotemporal dynamic analyses of intermittent plastic flow in the nanoindentation of different Bulk metallic glasses (BMGs), at various temperatures, were carefully performed to provide insight into the amorphous structural-property relationship. Based on the displacement-time series and largest Lyapunov exponent during serrated flow, two distinct types of dynamic behaviors were identified at room temperature, i.e., the serrated flow dynamics transforms form a self-organized critical state in traditional BMGs to a more chaotic state in high entropy BMGs (HE-BMGs). This may originate from their local structural difference that the solvent-solute architecture in conventional BMGs is broken in HE-BMGs. Furthermore, sluggish diffusion in HE-BMG can effectively retard relaxation kinetics, which leads to the deviation of HE-BMGs from the conventional BMGs in terms of the relationship between the chaotic behavior and temperature. Indeed, the insignificant change in dynamic complexity of HE-BMG conforms to its increased structural stability at elevated temperatures, which was soundly elucidated from both topological and kinetic factors. This study is of significance in understanding the configuration complexity and structure stability in HE-BMGs and helpful for designing BMGs with promising properties against external mechanical and thermal agitations. Keywords: High entropy effect, Bulk metallic glass, Plastic dynamics, Nanoindentationhttp://www.sciencedirect.com/science/article/pii/S0264127520300332
collection DOAJ
language English
format Article
sources DOAJ
author Qing Zhou
Yin Du
Weichao Han
Qian Jia
Yuyu Deng
Haifeng Wang
spellingShingle Qing Zhou
Yin Du
Weichao Han
Qian Jia
Yuyu Deng
Haifeng Wang
Identifying the high entropy effect on plastic dynamics in bulk metallic glasses: A nanoindentation study at room and elevated temperatures
Materials & Design
author_facet Qing Zhou
Yin Du
Weichao Han
Qian Jia
Yuyu Deng
Haifeng Wang
author_sort Qing Zhou
title Identifying the high entropy effect on plastic dynamics in bulk metallic glasses: A nanoindentation study at room and elevated temperatures
title_short Identifying the high entropy effect on plastic dynamics in bulk metallic glasses: A nanoindentation study at room and elevated temperatures
title_full Identifying the high entropy effect on plastic dynamics in bulk metallic glasses: A nanoindentation study at room and elevated temperatures
title_fullStr Identifying the high entropy effect on plastic dynamics in bulk metallic glasses: A nanoindentation study at room and elevated temperatures
title_full_unstemmed Identifying the high entropy effect on plastic dynamics in bulk metallic glasses: A nanoindentation study at room and elevated temperatures
title_sort identifying the high entropy effect on plastic dynamics in bulk metallic glasses: a nanoindentation study at room and elevated temperatures
publisher Elsevier
series Materials & Design
issn 0264-1275
publishDate 2020-04-01
description In this study, the spatiotemporal dynamic analyses of intermittent plastic flow in the nanoindentation of different Bulk metallic glasses (BMGs), at various temperatures, were carefully performed to provide insight into the amorphous structural-property relationship. Based on the displacement-time series and largest Lyapunov exponent during serrated flow, two distinct types of dynamic behaviors were identified at room temperature, i.e., the serrated flow dynamics transforms form a self-organized critical state in traditional BMGs to a more chaotic state in high entropy BMGs (HE-BMGs). This may originate from their local structural difference that the solvent-solute architecture in conventional BMGs is broken in HE-BMGs. Furthermore, sluggish diffusion in HE-BMG can effectively retard relaxation kinetics, which leads to the deviation of HE-BMGs from the conventional BMGs in terms of the relationship between the chaotic behavior and temperature. Indeed, the insignificant change in dynamic complexity of HE-BMG conforms to its increased structural stability at elevated temperatures, which was soundly elucidated from both topological and kinetic factors. This study is of significance in understanding the configuration complexity and structure stability in HE-BMGs and helpful for designing BMGs with promising properties against external mechanical and thermal agitations. Keywords: High entropy effect, Bulk metallic glass, Plastic dynamics, Nanoindentation
url http://www.sciencedirect.com/science/article/pii/S0264127520300332
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