| NUREG-2121: Fuel fragmentation, relocation, and dispersal during the loss-of-coolant accident PAC Raynaud US Nuclear Regulatory Commission, Office of Nuclear Regulatory Research, 2012 | 84* | 2012 |
| FRAPCON-4.0: a Computer Code for the Calculation of Steady-state KJ Geelhood Thermal-Mechanical Behavior of Oxide Fuel Rods for High Burnup 1, 2015 | 77 | 2015 |
| Crack growth in the through-thickness direction of hydrided thin-wall Zircaloy sheet PA Raynaud, DA Koss, AT Motta Journal of nuclear materials 420 (1-3), 69-82, 2012 | 77 | 2012 |
| Cladding stress during extended storage of high burnup spent nuclear fuel PAC Raynaud, RE Einziger Journal of Nuclear Materials 464, 304-312, 2015 | 32 | 2015 |
| Fracture toughness of hydrided Zircaloy-4 sheet under through-thickness crack growth conditions PA Raynaud, DA Koss, AT Motta, KS Chan ASTM International, 2008 | 31 | 2008 |
| Report on fuel fragmentation, relocation, and dispersal H Sonnenburg, W Wiesenack, J Karlsson, J Noirot, V Garat, N Waeckel, ... Nuclear Energy Agency/Committee on Safety of Nuclear Installations, 2016 | 30 | 2016 |
| Predictions of fuel dispersal during a LOCA P Raynaud, I Porter Proceedings of WRFPM 2014, 2014 | 21 | 2014 |
| Material Property Correlations: Comparisons between FRAPCON-3.4 WG Luscher, KJ Geelhood, I Porter FRAPTRAN-1.5, and MATPRO, 2014 | 19 | 2014 |
| FRAPCON-4.0: A Computer Code for the Calculation of Steady-State, Thermal-Mechanical Behavior of Oxide Fuel Rods for High Burnup KJ Geelhood, WG Luscher, PA Raynaud, IE Porter Pacific Northwest National Laboratory Richland, Washington, 2015 | 18 | 2015 |
| Fuel Fragmentation P Raynaud Relocation, and Dispersal during Lossof-Coolant Accidents, US NRC, NUREG-2121, 2012 | 11 | 2012 |
| Cladding hydrogen based regulations in the United States P Raynaud, A Bielen 2011 Water Reactor Fuel Performance Meeting, Chengdu, China, 2011 | 11 | 2011 |
| Crack growth through the thickness of thin-sheet hydrided Zircaloy-4 PAC Raynaud The Pennsylvania State University, 2009 | 10 | 2009 |
| FRAPCON-4.0: A Computer Code for the Calculation of Steady-State, Thermal-Mechanical Behavior of Oxide Fuel Rods for High Burnup. Nuclear Regulatory Commission, Washington, DC … K Geelhood, W Luscher, P Raynaud Pacific Northwest Lab., Richland, WA (United States), 2015 | 8 | 2015 |
| Material Property Correlations: Comparison Between FRACAON-3.5, FRAPCON-1.5, and MATPRO KJ Geelhood, WG Lusher, PA Raynaud NUREG/CR-7024, Rev. 1, 2014 | 8 | 2014 |
| Important Aspects of Probabilistic Fracture Mechanics Analyses P Raynaud, M Kirk, M Benson, M Homiack Technical Letter, United States Nuclear Regulatory Commission, Rockville, MD …, 2018 | 7 | 2018 |
| Core-wide estimates of fuel dispersal during a LOCA P Raynaud TopFuel 2013, 636-643, 2013 | 7 | 2013 |
| Potential impacts of modeling full reactor cores using combined fuel performance and thermal hydraulics codes I Porter, TW Knight, P Raynaud Nuclear Technology 190 (2), 174-182, 2015 | 6 | 2015 |
| Fuel fragmentation, relocation and dispersal during the loss-of-coolant accident, 2012 PAC Raynaud Report NUREG-2121, US Nuclear Regulatory Commission, Washington, DC, USA, 55, 0 | 6 | |
| FRAPCON-4.0: A Computer Code of Steady-State, Thermal-Mechanical Behavior of Oxide Fuel Rods for High Burnup KJ Geelhood, WG Luscher, P Raynaud, P IE PNNL-19418 1, 2015 | 5 | 2015 |
| Mobility analyses for fuel particles dispersed during a LOCA JG Phillips, IE Porter, PA Raynaud Zurich, Switzerland: TopFuel 2015, 2015 | 3 | 2015 |
