Crystallization kinetic characteristics of oxygen-induced I-phase and Zr_2Cu phase in Zr_(65)Cu_(27.5)Al_(7.5) glassy alloy 被引量：1

Crystallization kinetic characteristics of oxygen-induced I-phase and Zr_2Cu phase in Zr_(65)Cu_(27.5)Al_(7.5) glassy alloy

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摘要 Based on the construction of TTT diagrams by isothermal DSC measurements, the thermal stabilities of Zr65Cu27.5Al7.5 glassy alloys containing 0.68% and 0.06% [O] (molar fraction) were compared. The changing tendencies of the thermal stabilities reflected in the TTT-diagrams were validated by XRD analyses and TEM observations. The crystallization kinetic characteristics of oxygen-induced I-phase and Zr2Cu phase in Zr65Cu27.5Al7.5 glassy alloy were discussed. It is found that oxygen promotes the precipitation of I-phase and retards the formation of Zr2Cu phase. If the pre-crystallization event for oxygen-induced I-phase is permitted and the main-crystallization event for Zr2Cu phase is taken as the thermal stability criterion, the alloy with higher oxygen content has longer onset time for crystallization within a rather large supercooling temperature range. The possibility for the preparation of Zr65Cu27.5Al7.5 glassy alloy-based composite containing oxygen-induced I-phase was also forecasted. Based on the construction of TTT diagrams by isothermal DSC measurements, the thermal stabilities of Zr65Cu27.5A17.5 glassy alloys containing 0.68% and 0.06% [O] （molar fraction） were compared. The changing tendencies of the thermal stabilities reflected in the TTT-diagrams were validated by XRD analyses and TEM observations. The crystallization kinetic characteristics of oxygen-induced I-phase and Zr2Cu phase in Zr65Cu27.sm17.5 glassy alloy were discussed. It is found that oxygen promotes the precipitation of I-phase and retards the formation of Zr2Cu phase. If the pre-crystallization event for oxygen-induced I-phase is permitted and the main-crystallization event for Zr2Cu phase is taken as the thermal stability criterion, the alloy with higher oxygen content has longer onset time for crystallization within a rather large supercooling temperature range. The possibility for the preparation of Zr65Cu27.sm17.5 glassy alloy-based composite containing oxygen-induced I-phase was also forecasted.

作者贺林韩振华江峰孙军

机构地区 State Key Laboratory for Mechanical Behavior of Materials State Key Laboratory for Mechanical Behavior of Materials

出处《中国有色金属学会会刊：英文版》 CSCD 2008年第3期610-616,共7页 Transactions of Nonferrous Metals Society of China

基金 Project(50671076) supported by the National Natural Science Foundation of China

关键词金属性玻璃热力学研究相位转换杂质氧化 metallic glasses thermodynamic properties phase transition oxygen impurity

分类号 TG139.8 [一般工业技术—材料科学与工程]

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中国有色金属学会会刊：英文版

2008年第3期

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