Use of hydrogen as a temporary alloying element in titanium alloys is an attractive approach to improve the mechanical properties of the materials, enhance processability and thereby reduce manufacturing costs. In this paper, the hydrogen diffusion process and the phase transformation both between titanium particles and in titanium sheets were computationally simulated to analyze the mechanism of hydrogen diffusion in different phases (α-Ti, β-Ti and TiHx). With the simulation based on the thermodynamics and kinetics, quantitative behaviors of the hydrogen diffusion and the phase transformation were analyzed. The simulation results provide an insight into the diffusion process and improve the fundamental understanding of the mechanism of diffusion and phase transformation.
History
Event
Advances in Materials and Processing Technologies Conference (2009 : Kuala Lumpur, Malyasia)
Publisher
AMPT Committees
Location
Kuala Lumpur, Malaysia
Place of publication
Kuala Lumpur, Malaysia
Start date
2009-10-26
End date
2009-10-29
Language
eng
Notes
original work
Publication classification
E2 Full written paper - non-refereed / Abstract reviewed