Journal of Pure and Applied Ultrasonics

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Mechanical and Thermophysical Properties of Europium Monochalcogenides


Affiliations
1 Department of Applied Physics, Amity School of Engineering and Technology, Bijwasan, New Delhi-110061, India
2 Advanced Technology Development Center, Indian Institute of Technology, Kharagpur-721302, India
 

The ultrasonic properties of europium chalcogenides EuX (X = O, S and Te) have been computed at room temperature along <100>, <110> and <111> orientations. The higher order elastic constants have also been computed using Coulomb and Born-Mayer potential upto second nearest neighbour and these are applied to compute ultrasonic properties. The mechanical and thermal properties like Youngs modulus, bulk modulus, Cauchy's relation, Zener anisotropy factor, fracture to toughness ratio, Debye temperature have also been calculated for finding the future performance of these materials. Since these materials follow the Born stability criteria, so these are mechanically stable. The fracture to toughness ratio is less than 1.75, hence these are brittle in nature. The results of present investigation have been analysed in correlation with mechanical and thermophysical properties of the similar materials.

Keywords

Monochalcogenides, Elastic Properties, Thermal Properties, Ultrasonic Properties.
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  • Mechanical and Thermophysical Properties of Europium Monochalcogenides

Abstract Views: 261  |  PDF Views: 7

Authors

Vyoma Bhalla
Department of Applied Physics, Amity School of Engineering and Technology, Bijwasan, New Delhi-110061, India
Devraj Singh
Department of Applied Physics, Amity School of Engineering and Technology, Bijwasan, New Delhi-110061, India
Giridhar Mishra
Department of Applied Physics, Amity School of Engineering and Technology, Bijwasan, New Delhi-110061, India
Meher Wan
Advanced Technology Development Center, Indian Institute of Technology, Kharagpur-721302, India

Abstract


The ultrasonic properties of europium chalcogenides EuX (X = O, S and Te) have been computed at room temperature along <100>, <110> and <111> orientations. The higher order elastic constants have also been computed using Coulomb and Born-Mayer potential upto second nearest neighbour and these are applied to compute ultrasonic properties. The mechanical and thermal properties like Youngs modulus, bulk modulus, Cauchy's relation, Zener anisotropy factor, fracture to toughness ratio, Debye temperature have also been calculated for finding the future performance of these materials. Since these materials follow the Born stability criteria, so these are mechanically stable. The fracture to toughness ratio is less than 1.75, hence these are brittle in nature. The results of present investigation have been analysed in correlation with mechanical and thermophysical properties of the similar materials.

Keywords


Monochalcogenides, Elastic Properties, Thermal Properties, Ultrasonic Properties.