Theoretical Prediction of Elastic Properties of Active and Smart Material at High Pressure

Authors

  • Amit Pandey
  • Chandra K. Dixit
  • Shivam Srivastava
  • Prachi Singh
  • Anjani K. Pandey

Keywords:

Equation of state (EOSs), Smart Materials, Isothermal Bulk modulus, Gruneisen parameter.

Abstract

This paper uses three different equations of states (I) Brennan - Stacey EOS, (II) Birch - Murnaghan EOS, and (III) Vinet - Rydberg EOS to theoretically predict the behavior of elastic properties of active and smart materials at high pressure under different compression, such as isothermal bulk modulus at different compressions, pressure derivative of isothermal bulk modulus, and Gruneisen parameter for CuO smart material. The outcome demonstrates that Gruneisen Parameter falls as compression rises. Additionally, when compression rises, the first derivative of isothermal bulk modulus drops.

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Published

2023-08-15

How to Cite

Amit Pandey, Chandra K. Dixit, Shivam Srivastava, Prachi Singh, & Anjani K. Pandey. (2023). Theoretical Prediction of Elastic Properties of Active and Smart Material at High Pressure. International Journal of Progressive Research in Science and Engineering, 4(8), 134–136. Retrieved from https://journal.ijprse.com/index.php/ijprse/article/view/977

Issue

Vol. 4 No. 8 (2023): August

Section

Articles

License

Copyright (c) 2023 Amit Pandey, Chandra K. Dixit, Shivam Srivastava, Prachi Singh, Anjani K. Pandey

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.