Affiliation:
1. CDTA/Advanced Technologies Development Centre
2. Centre de Développement des Technologies Avancées
3. USTHB
Abstract
In this paper, we study the oxidation process during the heating of a titanium metallic surface by a Nd-YAG fiber pulsed laser beam under air environment. For this, we adopted an approach that considers a three-dimensional heat diffusion model coupled with an oxidation parabolic law (oxidation kinetics). The heat diffusion equation solved numerically, gives the temperature field. The oxide film growth is simulated by implementing a dynamic mesh technique. We developed computational procedures UDFs (User Defined Function) running interactively with the Fluent fluid dynamics software [ that implements the finite volume method. These UDFs are developed to insert the oxidation law, the temperature field, the specific boundary conditions and the mesh deformation into the calculation.
Publisher
Trans Tech Publications, Ltd.
Subject
Condensed Matter Physics,General Materials Science,Radiation
Reference11 articles.
1. Fluent 6. 3. 26, http: /www. ANSYS. com.
2. L. Lavisse et al., Pulsed laser growth and characterization of thin films on titanium substrates, E-MRS meeting, Nice, France, May 28 - June 02, (2006).
3. N. Cabrera and N.F. Mott: Rep. Prog. Phys. Vol. 12 (1949), p.163.
4. N. Perez, Electrochemistry and corrosion science, Department of Mechanical Engineering University of Puerto Rico. Kluwer Academic Publishers, p.327 (2004).
5. J.L. Jiménez Pérez, et al.: Surf. Appl. Sci. Vol. 175 (2001), p.709.
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