Jason M Harp Contact harpjm@ornl.gov All Publications Characterization of the radial microstructural evolution in LWR UO2 using electron backscatter diffraction Short Communication: Observation of Initial Burst Release of Fission Gas from High-Burnup UO2 Nuclear Fuel During Thermal Transient Identifying chemically similar multiphase nanoprecipitates in compositionally complex non-equilibrium oxides via machine learning High-burnup fuel stress analysis prior to and during a LOCA transient Electron microscopy characterization of the fuel-cladding interaction in medium burnup annular fast reactor MOX Postirradiation Examination from Separate Effects Irradiation Testing of Uranium Nitride Kernels and Coated Particles A Critical Review of High Burnup Fuel Fragmentation, Relocation, and Dispersal under Loss-Of-Coolant Accident Conditions Summary of the Postirradiation Examination of the First Samples from a MiniFuel Irradiation Characterization of a minor actinides bearing metallic fuel pin irradiated in EBR-II Post-irradiation examinations of annular mixed oxide fuels with average burnup 4 and 5% FIMA Uranium nitride tristructural-isotropic fuel particle Development of Large Bore Rabbit Capsules in Support of BWR Cladding Irradiations in HFIR Swelling and Fission Gas Release of U-10Mo and U-17Mo Following Neutron Irradiation at 250 – 500°C Investigation of UO2 Doped with Fe2O3 Sintered Under a Reducing Atmosphere Status of the Fuel Fragment Dispersal Studies at Oak Ridge National Laboratory... THE U.S. ACCIDENT TOLERANT FUELS PROGRAM: RECENT ACCOMPLISHMENTS SUPPORTING IMPLEMENTATION METHOD FOR EXPOSING IRRADIATED FUEL CLADDING TO RAPID THERMAL TRANSIENTS NON-DESTRUCTIVE POST IRRADIATION EXAMINATION OF FIRST CYCLE ACCIDENT TOLERANT AND ADVANCED ZIRCONIUM ALLOY HIGH BURNUP FUEL RODS Characterization of Fuel and Cladding In and Near the Pellet-Pellet Gap of a High-Burnup Pressurized Water Reactor Fuel Rod BISON VALIDATION TO PRESSUREIZED WATER REACTOR HIGH-BURNUP POST-IRRADIATION EXAMINATION DATA FUEL FRAGMENT DISPERSAL DURING A POSTBURST VIBRATION EVENT... DEVELOPMENT OF TRANSIENT FISSION GAS RELEASE CAPABILITIES TO STUDY HIGH BURNUP COMMERCIAL FUEL PERFORMANCE UNDER LOSS OF COOLANT ACCIDENT CONDITIONS Recent High Burnup LOCA Testing at Oak Ridge National Laboratory... ROADRUNNER MiniFuel Experiment - Irradiation Target Design and Sample Characterization Dispersal of high-burnup fuel fragment surrogate particles during and after loss-of-coolant accident tests Pagination Current page 1 Page 2 Page 3 … Next page ›› Last page Last » Key Links Curriculum Vitae Google Scholar ORCID LinkedIn IMPACT@ORNL Organizations Fusion and Fission Energy and Science Directorate Nuclear Energy and Fuel Cycle Division Nuclear Fuel Development Section Nuclear Fuel Element Performance Group