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Meeting 2020 TMS Annual Meeting & Exhibition
Symposium Thermal Transport in Crystalline and Non-crystalline Solids: Theory and Experiments
Presentation Title Investigations of the Thermal Conductivity of UN
Author(s) Barbara Szpunar, Linu Malakkal, J.I. Ranasinghe, J.A. Szpunar
On-Site Speaker (Planned) Barbara Szpunar
Abstract Scope UN is a safer alternative nuclear fuel due to its electronic thermal conductivity, increasing with temperature as also observed experimentally. The energy of the UN is lower for ferromagnetic ordering than paramagnetic. We found, using QE code, that the lattice constant calculated using PBEsol functional and norm-conserving potentials is larger for ferromagnetic UN (0.497 nm) than paramagnetic UN (0.489 nm). However our preliminary ShengBTE calculations show that previously over-predicted phonon contribution to thermal conductivity in paramagnetic UN is only slightly reduced with increased lattice constant due to ferromagnetic ordering. We also noted significant contribution of the optical phonons to the thermal conductivity like it was observed previously for urania. Furthermore, the electronic thermal conductivity can only be performed for paramagnetic UN, using EPW and Boltztrap code. The results are dependent on the selection of electronic carriers and showed good agreement with experiment at higher temperatures.
Proceedings Inclusion? Planned: Supplemental Proceedings volume

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

Advancing Insights into Phonon Thermal Transport with Theory/experiment Interactions
Determining the Impact of Material Microstructure on the Effective Thermal Conductivity Using Mesoscale Simulation and Modeling
Electronic Structure and Thermal Transport Measurement of GdxSb2-xTe3
Impact of Irradiation Induced Nanoscale Defects on Optical and Thermal Properties of Cerium Dioxide
Influence of Irradiation-induced Microstructural Defects on the Thermal Conductivity of Single Crystal Thorium Dioxide
Investigations of the Thermal Conductivity of UN
Lattice Thermal Conductivity of Quartz at High Pressure and Temperature from the Boltzmann Transport Equation
Mesoscale Modeling of Thermal Conductivity of a UO2 and BeO Composite Nuclear Fuel
Multi-scale Thermal Transport Characterization of Nuclear Fuels
Multi Scale Modeling of the Thermal Conductivity: Combining First Principle Calculations with Monte Carlo
Nano- and Micro-scale Thermal Transport in Swift heavy Ion Irradiated Oxides
Non-linear Thermal Resistance Trend with Increasing Bilayer Density
Nonlinear Stopping of Phonons in Thermoelectric Crystal PbSe
Phonon Dispersion and Linewidth in ThO2 Measured by Neutron Scattering
Physics-guided Machine-Learning Design of Aperiodic Superlattices with Maximum Localization of Coherent Phonons
Structural, Transport, Magnetic, and Thermodynamic Studies of Delta-phase of Uranium
Study of Thermal Transport Properties of Thorium Dioxide Single Crystals
The Degradation of the Thermal Conductivity of Oxide Nuclear Fuel
Thermal Transport in Crystalline Solids with Irradiation-Induced Defects: Computational Modeling and Experiments
Thermal Transport in Nanostructured Crystalline and Disordered Materials
Thermal Transport in ThO2
Thermal Transport Properties of Uranium Aluminides by First-principles

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