Thermal conductivity of non-stoichiometric americium oxide: A molecular dynamics study

Abstract: a b s t r a c tThe aim of this paper is to investigate the influence of multi-valency of americium in its oxide for the lowering of the thermal conductivity and the uncertainty in measurement. In the present study, thermal conductivity of non-stoichiometric americium oxide was evaluated up to 2000 K by the non-equilibrium molecular dynamics calculations using the Born-Mayer-Huggins interatomic potential with the partially ionic model. The oxygen-to-americium ratio (O/Am) was varied from 1.6 to 1.9, which corre… Show more

“…NEMD method is very simple in implementation and compatible with the periodic boundary conditions [57]. Additionally, the NEMD method gave smaller errors for the thermal conductivities than the equilibrium molecular dynamics (EMD) method at low temperatures [58]. In NEMD method, a temperature gradient is imposed on the simulation system, and the thermal conductivity (k) is calculated from the Fourier's law as the form of Eq.…”

Effect of thorium addition on the thermophysical properties of uranium dioxide: Atomistic simulations

“…NEMD method is very simple in implementation and compatible with the periodic boundary conditions [57]. Additionally, the NEMD method gave smaller errors for the thermal conductivities than the equilibrium molecular dynamics (EMD) method at low temperatures [58]. In NEMD method, a temperature gradient is imposed on the simulation system, and the thermal conductivity (k) is calculated from the Fourier's law as the form of Eq.…”

Effect of thorium addition on the thermophysical properties of uranium dioxide: Atomistic simulations

“…Recently, Uchida et al calculated the thermal conductivity of AmO 2 , AmO 1.5 and sub-stoichiometric AmO 2Àx using molecular dynamics [9,10]. However, no experimental data exist at high temperature for the thermal conductivities of AmO 2 and AmO 1.5 except at 333 K due to the difficulty in keeping stoichiometric composition at high temperature.…”

Heat capacities and thermal conductivities of AmO2 and AmO1.5

“…In previous studies, the authors have discussed various thermal properties, e.g. thermal conductivity (Arima et al, 2006;Uchida et al, 2010), melting point (Arima et al, 2009) and atomic diffusion . However, most of these properties have been obtained by the equilibrium molecular dynamics (EMD) simulation, where "equilibrium" means the thermodynamic equilibrium.…”

Molecular dynamics calculations of heat conduction in actinide oxides under thermal gradient