Molecular dynamics simulation was employed to study the atomic interactions in titanium carbides and iron matrix containing carbon and titanium, which are significant for understanding the formation of titanium carbide cluster during precipitate process. The atoms trajectory and diffusion coefficients of carbon in titanium carbide were analyzed to provide a vacancy-exchanging mechanism and clarify the carbon concentration dependence of carbon diffusion in titanium carbide. The dependence of the formation of titanium carbide cluster in iron matrix on carbon was determined from the study of atoms diffusivity, cluster formation and formation energy of titanium carbide cluster. The simulation results provided insight into the carbon diffusion process and improved the understanding of the formation of titanium carbide cluster.
History
Event
Minerals, Metals and Materials Society. Annual Meeting (143rd : 2014 : San Diego, California)
Pagination
503 - 509
Publisher
Wiley
Location
San Diego, California
Place of publication
London, Eng.
Start date
2014-02-16
End date
2014-02-20
ISBN-13
9781118889725
Language
eng
Publication classification
E Conference publication; E1 Full written paper - refereed
Copyright notice
2014, Wiley-Blackwell
Editor/Contributor(s)
[Unknown]
Title of proceedings
TMS 2014 : Proceedings of the 143rd Minerals, Metals and Materials Society Annual Meeting