Title of article
Modeling of graphitization kinetics during peritectic melting of tungsten carbide Original Research Article
Author/Authors
Marios D. Demetriou، نويسنده , , Nasr M. Ghoniem، نويسنده , , Adrienne S. Lavine، نويسنده ,
Issue Information
دوهفته نامه با شماره پیاپی سال 2002
Pages
10
From page
4995
To page
5004
Abstract
A dynamic computational model developed within the context of the classical theory of phase evolution is applied to the W-C system to simulate the kinetics of graphite nucleation during non-equilibrium peritectic melting of WC. The kinetic variables used in the model are obtained directly from the free energy formulations that characterize the stable and metastable equilibria between WC, liquid, and graphite. The isothermal kinetic analysis suggests that transformation time decreases monotonically with increasing superheat such that the minimum transformation time occurs at the metastable congruent melting point of WC (~3107 K). To crystallize 1 ppm of graphite, the minimum transformation time is computed to be ~2 ns. The non-isothermal kinetic analysis suggests that under moderate to high heating rates (104-106 K/s) graphitization is completed at superheats of 40-50 K, while under ultra-high heating rates (~108 K/s) graphitization remains incomplete giving rise to metastable congruent melting of WC.
Keywords
Non-equilibrium processing , Nucleation , Cluster dynamics , Growth , computer simulation
Journal title
ACTA Materialia
Serial Year
2002
Journal title
ACTA Materialia
Record number
1140106
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