The stability analysis and efficiency of the new MAX-phase compounds M3GaC2 (M: Ti or Zr): A first-principles assessment

A.A. Belkacem; H. Rached; M. Caid; Y. Rached; D. Rached; Nada T Mahmoud; N. Benkhettou

Results in Physics (Jul 2022)

The stability analysis and efficiency of the new MAX-phase compounds M3GaC2 (M: Ti or Zr): A first-principles assessment

A.A. Belkacem,
H. Rached,
M. Caid,
Y. Rached,
D. Rached,
Nada T Mahmoud,
N. Benkhettou

Affiliations

A.A. Belkacem: Department of Physics, Faculty of Exact Sciences, Djillali Liabes University of Sidi Bel-Abbes, Sidi Bel-Abbes 22000, Algeria; Magnetic Materials Laboratory, Faculty of Exact Sciences, Djillali Liabes University of Sidi Bel-Abbes, Sidi Bel-Abbes 22000, Algeria
H. Rached: Magnetic Materials Laboratory, Faculty of Exact Sciences, Djillali Liabes University of Sidi Bel-Abbes, Sidi Bel-Abbes 22000, Algeria; Department of Physics, Faculty of Exact Sciences and Informatics, Hassiba Benbouali University of Chlef, Chlef 02000, Algeria
M. Caid: Magnetic Materials Laboratory, Faculty of Exact Sciences, Djillali Liabes University of Sidi Bel-Abbes, Sidi Bel-Abbes 22000, Algeria; Département des Sciences Exactes, École Normale Supérieure de Bou Saâda, Bou Saâda 28001, Algérie
Y. Rached: Département des Sciences de la Matière, Faculté des Sciences et de la Technologie, Université Ahmed Ben Yahia El-Wancharisi Tissemsilt, Tissemsilt 38000, Algérie; Laboratoire d’Etudes Physique des Matériaux, Université des Sciences et de Technologies USTO-MB, El M’Naouar Oran, Algérie
D. Rached: Magnetic Materials Laboratory, Faculty of Exact Sciences, Djillali Liabes University of Sidi Bel-Abbes, Sidi Bel-Abbes 22000, Algeria; Corresponding author.
Nada T Mahmoud: Physics Department, the University of Jordan, Amman 11942, Jordan
N. Benkhettou: Magnetic Materials Laboratory, Faculty of Exact Sciences, Djillali Liabes University of Sidi Bel-Abbes, Sidi Bel-Abbes 22000, Algeria

Journal volume & issue: Vol. 38
p. 105621

Abstract

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The primary goal of this work is to provide a DFT investigation report on the stability and mechanical, electronic, and thermal properties of the new MAX-phase compounds M3GaC2 (M: Ti or Zr). We discovered that the investigated compounds were stable and could be synthesized experimentally after testing their energy, mechanical, and dynamic stabilities. The derived values were in good agreement with the only known experimental data for the equilibrium lattice constants. The mechanical properties revealed that the studied compounds were anisotropic hard materials dominated by covalent bonds. The electronic structures and lattice thermal conductivities were also evaluated, revealing the metallic behavior of the compounds. Owing to the high melting temperature and low thermal conductivity, the compounds were estimated as promising materials for thermal barrier coating and hostile environments. Finally, we consider the present report to be the first quantitative theoretical prediction, and we hope that it will inspire new theoretical and experimental research on these compounds.

Published in Results in Physics

ISSN: 2211-3797 (Online)
Publisher: Elsevier
Country of publisher: Netherlands
LCC subjects: Science: Physics
Website: http://www.journals.elsevier.com/results-in-physics/

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