Add to ORKGThe thermal conductivities of single crystal and polycrystalline UO2 are calculated using molecular dynamics simulations, with interatomic interactions described by two different potential models. For single crystals, the calculated thermal conductivities are found to be strongly dependent on the size of the simulation cell. However, a scaling analysis shows that the two models predict essentially identical values for the thermal conductivity for infinite system sizes. By contrast, simulations with the two potentials for identical fine polycrystalline structures yield estimated thermal conductivities that differ by a factor of two. We analyze the origin of this difference. (c) 2008 Elsevier B.V. All rights reserved
Molecular-dynamics simulations are used to characterize the effects of dislocations on the thermal t...
There is still no clear understanding of the plutonium content influence on the thermal conductivity...
The melting of vacuum-isolated uranium dioxide (UO2) nanocrystals is studied by molecular dynamics s...
The thermal conductivities of single crystal and polycrystalline UO2 are calculated using molecular ...
The thermal conductivity of hypo- and hyperstoichiometric UO 2 is calculated as a function of defect...
The thermal conductivity of hypo- and hyperstoichiometric UO(2) is calculated as a function of defec...
This work is a review of the papers devoted to investigation of the thermal conductivity in single c...
Classical molecular dynamics simulations have been performed on uranium dioxide (UO2) employing a re...
In the present work, calculations of the thermal conductivity of UO2 were carried out applying class...
This article reviews the thermal transport properties as predicted by 26 classical interatomic poten...
This work is a review of the papers devoted to investigation of the thermal conductivity in single c...
The thermal conductivities of UO2 single crystals containing nanoscale size pores and He gas bubbles...
Uranium dioxide (UO₂) is the most commonly used fuel in light-water nuclear reactors and thermal con...
Classical Molecular Dynamics was used to investigate the effect of nanometric size pores on the ther...
金沢大学理学部The thermal conductivity of UO2 pellet, which is used as nuclear fuel, was calculated using t...
Molecular-dynamics simulations are used to characterize the effects of dislocations on the thermal t...
There is still no clear understanding of the plutonium content influence on the thermal conductivity...
The melting of vacuum-isolated uranium dioxide (UO2) nanocrystals is studied by molecular dynamics s...
The thermal conductivities of single crystal and polycrystalline UO2 are calculated using molecular ...
The thermal conductivity of hypo- and hyperstoichiometric UO 2 is calculated as a function of defect...
The thermal conductivity of hypo- and hyperstoichiometric UO(2) is calculated as a function of defec...
This work is a review of the papers devoted to investigation of the thermal conductivity in single c...
Classical molecular dynamics simulations have been performed on uranium dioxide (UO2) employing a re...
In the present work, calculations of the thermal conductivity of UO2 were carried out applying class...
This article reviews the thermal transport properties as predicted by 26 classical interatomic poten...
This work is a review of the papers devoted to investigation of the thermal conductivity in single c...
The thermal conductivities of UO2 single crystals containing nanoscale size pores and He gas bubbles...
Uranium dioxide (UO₂) is the most commonly used fuel in light-water nuclear reactors and thermal con...
Classical Molecular Dynamics was used to investigate the effect of nanometric size pores on the ther...
金沢大学理学部The thermal conductivity of UO2 pellet, which is used as nuclear fuel, was calculated using t...
Molecular-dynamics simulations are used to characterize the effects of dislocations on the thermal t...
There is still no clear understanding of the plutonium content influence on the thermal conductivity...
The melting of vacuum-isolated uranium dioxide (UO2) nanocrystals is studied by molecular dynamics s...