Theoretical Investigation of Electrical Transport Property of Co-Cr Liquid Binary Alloy

Pankajsinh B. Thakor; Yogeshkumar A. Sonvane; J.J. Patel; Ashvin R. Jani

doi:10.4028/www.scientific.net/AMR.665.132

Paper Titles

Molecular Structure, Vibrational Spectroscopy and Homo, Lumo Studies of 4-methyl-N-(2-methylphenyl) Benzene Sulfonamide Using DFT Method
p.101

MoSe₂/Polypyrrole Solar Cell
p.112

Synthesis, Structural, Optical, and Magnetic Properties of Fe Doped TiO₂ along with Different Concentration
p.118

Characterization of Gd₂O₃ Nano Clusters
p.127

Theoretical Investigation of Electrical Transport Property of Co-Cr Liquid Binary Alloy
p.132

Theoretical Investigation of Atomic Transport Properties of 4d Transition Metals in Liquid Phase
p.136

Concentration Depended Thermodynamic Properties of Fe-Co Liquid Binary Alloy
p.143

Concentration Dependent Physical Properties of SiSn Solid Solution
p.150

Temperature Dependence Electron-Impurity Scattering Rate in Doped Bilayer Graphene
p.154

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 665Theoretical Investigation of Electrical Transport...

Theoretical Investigation of Electrical Transport Property of Co-Cr Liquid Binary Alloy

Abstract:

Electronic transport property like electrical resistivity (ρ) of Co-Cr liquid binary alloy is calculated using Faber-Ziman formulation. To describe electron-ion interaction we have used newly constructed parametric free model potential along with Ashcroft-Langreth (AL) partial structure factor. To see the effect of exchange and correlation effect on electrical resistivity, we have used different local field correction functions like Hartree, Taylor and Sarkar et al. From present results, it is seen that good agreements between present results and experimental data have been achieved. Lastly we conclude that our model potential successfully produces the data of electrical resistivity (ρ) of Co-Cr liquid binary alloy.