Melting Liquid Joint Method of Ti(Cu)-Base Bulk Metallic Glassy Alloy
p.707
p.707
Y-Shaped Carbon Nanowires Obtained from Ethanol Flames and their Growth Mechanism
p.711
p.711
Comparison between Tribological Characteristics of Al-Cu-Fe-B Quasicrystalline and Mo Coatings
p.715
p.715
Upsetting of Ultrafine-Grained Bulk Al-Mg Alloy Consolidated by Hydrostatic Extrusion
p.719
p.719
Glass Transition within the Cluster Variation Approximation
p.723
p.723
Carbon Nanotubes Obtained by ECC Technique with Cobalt Salt as Catalyst Precursor
p.727
p.727
Synthesis of Carbon Nanofibers by Ethanol Catalytic Combustion Technique
p.731
p.731
The Influence of Catalyst Nature on the Morphology of Multi-Directionally Grown Carbon Nanofibers
p.735
p.735
Synthesis of Zr-Based Glassy Alloy Foams
p.739
p.739
Glass Transition within the Cluster Variation Approximation
Abstract:
The detailed behavior of the free energy of Cluster Variation Method in the vicinity of spinodal ordering transition is examined. The generalized phase diagram proposed in the previous study is modified and spinodal ordering transition is reinterpreted as a limiting case of the ideal glass transition.
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Periodical:
Advanced Materials Research (Volumes 26-28)
Pages:
723-726
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Online since:
October 2007
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© 2007 Trans Tech Publications Ltd. All Rights Reserved
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