Correlation between the glass-forming ability and activation energy of crystallization for Zr75-xNi25Alx metallic glasses
来源期刊:International Journal of Minerals Metallurgy and Materials2013年第5期
论文作者:Yan-hui Li Wei Zhang Chuang Dong Jian-bing Qiang Akihiro Makino
文章页码:445 - 449
摘 要:The thermal stability and the kinetics of glass transition and crystallization for Zr75-xNi25Alx (x= 8-15) metallic glasses were investigated using differential scanning calorimetry (DSC) under continuous heating conditions. The apparent activation energy of glass transition rises monotonously with the Al content increasing; the activation energy of crystallization increases with Al changing from 8at% to 15at%, and then decreases with Al further up to 24at%, which exhibits a good correlation to the thermal stability and the glass-forming ability (GFA). The Zr60Ni25Al15 metallic glass with the largest supercooled liquid region and GFA possesses the highest activation energy of crystallization. The relation between the thermal stability, GFA and activation energy of crystallization was discussed in terms of the primary precipitated phases.
Yan-hui Li1,Wei Zhang1,2,Chuang Dong1,Jian-bing Qiang1,Akihiro Makino2
1. School of Materials Science and Engineering,Dalian University of Technology2. Institute for Materials Research,Tohoku University
摘 要:The thermal stability and the kinetics of glass transition and crystallization for Zr75-xNi25Alx (x= 8-15) metallic glasses were investigated using differential scanning calorimetry (DSC) under continuous heating conditions. The apparent activation energy of glass transition rises monotonously with the Al content increasing; the activation energy of crystallization increases with Al changing from 8at% to 15at%, and then decreases with Al further up to 24at%, which exhibits a good correlation to the thermal stability and the glass-forming ability (GFA). The Zr60Ni25Al15 metallic glass with the largest supercooled liquid region and GFA possesses the highest activation energy of crystallization. The relation between the thermal stability, GFA and activation energy of crystallization was discussed in terms of the primary precipitated phases.
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