Development of very-high-density low-enriched-uranium fuels JL Snelgrove, GL Hofman, MK Meyer, CL Trybus, TC Wiencek Nuclear engineering and design 178 (1), 119-126, 1997 | 380 | 1997 |
Low-temperature irradiation behavior of uranium–molybdenum alloy dispersion fuel MK Meyer, GL Hofman, SL Hayes, CR Clark, TC Wiencek, JL Snelgrove, ... Journal of Nuclear Materials 304 (2-3), 221-236, 2002 | 322 | 2002 |
Molten uranium dioxide structure and dynamics LB Skinner, CJ Benmore, JKR Weber, MA Williamson, A Tamalonis, ... Science 346 (6212), 984-987, 2014 | 104 | 2014 |
The use of U3Si2 dispersed in aluminum in plate-type fuel elements for research and test reactors JL Snelgrove, RF Domagala, GL Hofman, TC Wiencek, GL Copeland, ... Argonne National Lab., 1987 | 77 | 1987 |
Development of very-high-density fuels by the RERTR program JL Snelgrove, GL Hofman, CL Trybus, TC Wiencek Argonne National Lab., 1996 | 67 | 1996 |
U-Si and U-Si-Ai Dispersion Fuel Alloy Development for Research and Test Reactors RF Domagala, TC Wiencek, HR Thresh Nuclear Technology 62 (3), 353-360, 1983 | 62 | 1983 |
Method for fabricating 99 Mo production targets using low enriched uranium, 99 Mo production targets comprising low enriched uranium TC Wiencek, JE Matos, GL Hofman US Patent 6,160,862, 2000 | 50 | 2000 |
Summary report on fuel development and miniplate fabrication for the RERTR program, 1978 to 1990 TC Wiencek Argonne National Lab., 1995 | 48 | 1995 |
Irradiation behavior of U6Mn–Al dispersion fuel elements MK Meyer, TC Wiencek, SL Hayes, GL Hofman Journal of nuclear materials 278 (2-3), 358-363, 2000 | 46 | 2000 |
Grain growth in U–7Mo alloy: A combined first-principles and phase field study ZG Mei, L Liang, YS Kim, T Wiencek, E O'Hare, AM Yacout, G Hofman, ... Journal of Nuclear materials 473, 300-308, 2016 | 43 | 2016 |
Method for fabricating 99 Mo production targets using low enriched uranium, 99 Mo production targets comprising low enriched uranium TC Wiencek, JE Matos, GL Hofman US Patent 5,615,238, 1997 | 41 | 1997 |
Effect of indium addition in U-Zr metallic fuel on lanthanide migration YS Kim, T Wiencek, E O'Hare, J Fortner, A Wright, JS Cheon, BO Lee Journal of Nuclear Materials 484, 297-306, 2017 | 35 | 2017 |
Modification of targets and processes for conversion of 99Mo production from high-to low-enriched uranium GF Vandegrift, C Conner, GL Hofman, RA Leonard, A Mutalib, J Sedlet, ... Industrial & engineering chemistry research 39 (9), 3140-3145, 2000 | 35 | 2000 |
Irradiation behavior of U–Nb–Zr alloy dispersed in aluminum MK Meyer, GL Hofman, TC Wiencek, SL Hayes, JL Snelgrove Journal of nuclear materials 299 (2), 175-179, 2001 | 34 | 2001 |
Development of annular targets for 99Mo production C Conner, EF Lewandowski, JL Snelgrove, MW Liberatore, DE Walker, ... | 34 | 1999 |
Development and processing of LEU targets for 99Mo production-overview of the ANL program JL Snelgrove, GL Hofman, TC Wiencek Argonne National Lab., 1995 | 34 | 1995 |
Thermal compatibility studies of unirradiated uranium silicide dispersed in aluminum TC Wiencek, RF Domagala, HR Thresh Nuclear technology 71 (3), 608-616, 1985 | 33 | 1985 |
Low-enriched uranium-molybdenum fuel plate development TC Wiencek, IG Prokofiev | 30 | 2000 |
Microstructural characterization of a thin film ZrN diffusion barrier in an As-fabricated U–7Mo/Al matrix dispersion fuel plate DD Keiser Jr, E Perez, T Wiencek, A Leenaers, S Van den Berghe Journal of Nuclear Materials 458, 406-418, 2015 | 27 | 2015 |
Aluminum-U3Si2 interdiffusion and its implications for the performance of highly loaded fuel operating at higher temperatures and fission rates GL Hofman, J Rest, JL Snelgrove, T Wiencek, S Koster van Groos Argonne National Lab., 1996 | 23 | 1996 |