Structural evolution and energy landscape of the clusters in Zr55Cu35Al10 metallic liquid and glass

Based on pair distribution function studies, a structural parameter, derived from the number of cluster connecting bonds and the coordination number, and energy analysis have been introduced to describe different kinds of local clusters in the liquids and glasses. By applying these analyses to a wid...

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Veröffentlicht in:	Scripta materialia 2016-05, Vol.117, p.64-67
Hauptverfasser:	Zhao, Jingfeng, Inoue, A., Liu, C.T., Liaw, P.K., Shen, Xiaoping, Pan, Shiyan, Chen, Guang, Fan, Cang
Format:	Artikel
Sprache:	eng
Schlagworte:	Aluminum Clusters Energy distribution Evolution Glass Glass transition Liquids Local clusters Structural evolution Zirconium Zirconium base alloys
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creator	Zhao, Jingfeng Inoue, A. Liu, C.T. Liaw, P.K. Shen, Xiaoping Pan, Shiyan Chen, Guang Fan, Cang
description	Based on pair distribution function studies, a structural parameter, derived from the number of cluster connecting bonds and the coordination number, and energy analysis have been introduced to describe different kinds of local clusters in the liquids and glasses. By applying these analyses to a widely studied Zr–Cu–Al base alloy system, we found that Zr-, Cu- and Al-centered first shell clusters showed different structural evolution and energy distributions during cooling. In terms of their structure and energy states, it is confirmed that the Al-centered first shell clusters play dominant role in the appearance of glass transition prior to the crystallization. (a) The energy distributions of the Al-, Cu- and Zr-centered first shell clusters at 1300K and 300K. (b) The variation of the effective radii of the Zr-, Cu- and Al first shell clusters as a function of temperature during the cooling process. [Display omitted]
doi_str_mv	10.1016/j.scriptamat.2016.02.023
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subjects	Aluminum Clusters Energy distribution Evolution Glass Glass transition Liquids Local clusters Structural evolution Zirconium Zirconium base alloys
title	Structural evolution and energy landscape of the clusters in Zr55Cu35Al10 metallic liquid and glass
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