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Issue title: IV Congress of Theoretical and Computational Physical Chemistry Venezuela, 2012
Guest editors: Fernando Ruettex, Anibal Sierraltax and Morella Sánchezxy
Article type: Research Article
Authors: Machado, F. Pabel J. | Luiggi A., Ney
Affiliations: Grupo de Física de Metales, Dpto. de Física, Escuela de Ciencias, Núcleo de Sucre, Universidad de Oriente, Venezuela. E-mail: [email protected], [email protected] | [x] Centro de Química, Instituto Venezolano de Investigaciones Científicas, IVIC, Caracas, Venezuela | [y] Departamento de Química, Instituto Universitario de Tecnología FRP, Caracas, Venezuela
Abstract: The electronic properties of Al-Ti intermetallics are receiving great attention in the specialized literature because these alloys present excellent mechanical performance at high temperatures. This consideration prompted our DFT-LDA and DFT-GGA ab initio study on electronic band structures, density of states, contour plots, Fermi Surface, Bulk modulus, and cohesive energy of intermetallics Al3Ti, AlTi, and AlTi3 using the FP-LAPW method. The band structure confirms their electrical conductivity, AlTi3 featuring a highly localized band associated to Ti 3d electrons around the Fermi level, not observed in the others. The DOS around the Fermi level is dominated by interactions between Al 3p and Ti 3d orbitals, whereas Al 3s and Ti 3d orbital interactions prevail in the regions of low and high energies, respectively. The density pseudogap in AlTi3 is located very close to the Fermi Level, granting a greater structural stability to this system. The Fermi Surface of these intermetallics, for which the authors found no previous reference in the literature, is reported. The difference in density distribution for the LDA and GGA methods is reflected in the contour plots. The Bulk modulus and cohesive energy values reported are in agreement with those reported in the literature.
Keywords: Al-Ti intermetallics, DFT-FPLAPW, bulk modulus, fermi surface, cohesive energy
DOI: 10.3233/JCM-130484
Journal: Journal of Computational Methods in Sciences and Engineering, vol. 14, no. 1-3, pp. 53-71, 2014
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