Volume 3, Issue 2
Thermodynamic Properties of $Zr_2Al$ Under High Pressure from First-Principles Calculations

X. L. Yuan, D. Q. Wei, Y. Cheng, Q. M. Zhang & Z. Z. Gong

J. At. Mol. Sci., 3 (2012), pp. 160-170.

Published online: 2012-03

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  • Abstract

The equations of state (EOS) and other thermodynamic properties of hcp structure $Zr_2Al$ are studied using first-principles calculations based on the plane wave pseudopotential density functional theory method within the generalized gradient approximation (GGA) for exchange and correlation. It is demonstrated that the ratio $c/a$ of about 1.208 is the most stable structure for the hcp $Zr_2Al,$ which is consistent with the experimental data. Through the quasi-harmonic Debye model, in which the phononic effects are considered, the dependences of relative volume $V/V_0$ on pressure $P,$ cell volume $V$ on temperature $T$ are successfully obtained. The variations of the Debye temperature $\Theta,$ the thermal expansion a , the Grüneisen parameter $\gamma$ and the heat capacity $C_v$ with pressure $P$ and temperature $T$ are investigated systematically in the ranges of 0-100 GPa and 0-1500 K.

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@Article{JAMS-3-160, author = {Yuan , X. L.Wei , D. Q.Cheng , Y.Zhang , Q. M. and Gong , Z. Z.}, title = {Thermodynamic Properties of $Zr_2Al$ Under High Pressure from First-Principles Calculations}, journal = {Journal of Atomic and Molecular Sciences}, year = {2012}, volume = {3}, number = {2}, pages = {160--170}, abstract = {

The equations of state (EOS) and other thermodynamic properties of hcp structure $Zr_2Al$ are studied using first-principles calculations based on the plane wave pseudopotential density functional theory method within the generalized gradient approximation (GGA) for exchange and correlation. It is demonstrated that the ratio $c/a$ of about 1.208 is the most stable structure for the hcp $Zr_2Al,$ which is consistent with the experimental data. Through the quasi-harmonic Debye model, in which the phononic effects are considered, the dependences of relative volume $V/V_0$ on pressure $P,$ cell volume $V$ on temperature $T$ are successfully obtained. The variations of the Debye temperature $\Theta,$ the thermal expansion a , the Grüneisen parameter $\gamma$ and the heat capacity $C_v$ with pressure $P$ and temperature $T$ are investigated systematically in the ranges of 0-100 GPa and 0-1500 K.

}, issn = {2079-7346}, doi = {https://doi.org/10.4208/jams.071011.080511a}, url = {http://global-sci.org/intro/article_detail/jams/8187.html} }
TY - JOUR T1 - Thermodynamic Properties of $Zr_2Al$ Under High Pressure from First-Principles Calculations AU - Yuan , X. L. AU - Wei , D. Q. AU - Cheng , Y. AU - Zhang , Q. M. AU - Gong , Z. Z. JO - Journal of Atomic and Molecular Sciences VL - 2 SP - 160 EP - 170 PY - 2012 DA - 2012/03 SN - 3 DO - http://doi.org/10.4208/jams.071011.080511a UR - https://global-sci.org/intro/article_detail/jams/8187.html KW - equations of state, thermodynamic properties, generalized gradient approximation, $Zr_2Al$. AB -

The equations of state (EOS) and other thermodynamic properties of hcp structure $Zr_2Al$ are studied using first-principles calculations based on the plane wave pseudopotential density functional theory method within the generalized gradient approximation (GGA) for exchange and correlation. It is demonstrated that the ratio $c/a$ of about 1.208 is the most stable structure for the hcp $Zr_2Al,$ which is consistent with the experimental data. Through the quasi-harmonic Debye model, in which the phononic effects are considered, the dependences of relative volume $V/V_0$ on pressure $P,$ cell volume $V$ on temperature $T$ are successfully obtained. The variations of the Debye temperature $\Theta,$ the thermal expansion a , the Grüneisen parameter $\gamma$ and the heat capacity $C_v$ with pressure $P$ and temperature $T$ are investigated systematically in the ranges of 0-100 GPa and 0-1500 K.

Yuan , X. L.Wei , D. Q.Cheng , Y.Zhang , Q. M. and Gong , Z. Z.. (2012). Thermodynamic Properties of $Zr_2Al$ Under High Pressure from First-Principles Calculations. Journal of Atomic and Molecular Sciences. 3 (2). 160-170. doi:10.4208/jams.071011.080511a
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