Article
Thermophysical Properties of Materials
2017. V. 55. № 1. P. 40–46
Yanilkin A.V.
Investigation of $\alpha$-phase and liquid uranium by the method of quantum molecular dynamics
The thermodynamic properties of $\alpha$-phase and liquid uranium have been investigated by the method of quantum molecular dynamics. The isotherms and equilibrium properties (pressure, temperature, and internal energy) along isochores and isotherms have been calculated for densities of $16.5$–$41.1$ g/cm$^3$ and temperatures up to $60000$ K. The dependence of the thermal pressure on temperature and internal energy is analyzed. The melting boundary of $\alpha$-phase uranium is estimated. The shock adiabat is calculated for pressures up to $1.5$ TPa based on the equation of state derived here. The results obtained are in good agreement with the published experimental data and the resu$\alpha$lts of calculations according to different theoretical models.
Article reference:
Yanilkin A.V. Investigation of $\alpha$-phase and liquid uranium by the method of quantum molecular dynamics, High Temp., 2017. V. 55. № 1. P. 40
Yanilkin A.V. Investigation of $\alpha$-phase and liquid uranium by the method of quantum molecular dynamics, High Temp., 2017. V. 55. № 1. P. 40