Combustion I Glassman, RA Yetter, NG Glumac Academic press, 2014 | 5021 | 2014 |
Combustion of nanoaluminum at elevated pressure and temperature behind reflected shock waves T Bazyn, H Krier, N Glumac Combustion and Flame 145 (4), 703-713, 2006 | 299 | 2006 |
Evidence for the transition from the diffusion-limit in aluminum particle combustion T Bazyn, H Krier, N Glumac Proceedings of the Combustion Institute 31 (2), 2021-2028, 2007 | 285 | 2007 |
An assessment of in‐person and remotely operated laboratories M Ogot, G Elliott, N Glumac Journal of Engineering education 92 (1), 57-64, 2003 | 178 | 2003 |
Emission spectroscopy of flame fronts in aluminum suspensions S Goroshin, J Mamen, A Higgins, T Bazyn, N Glumac, H Krier Proceedings of the Combustion Institute 31 (2), 2011-2019, 2007 | 173 | 2007 |
Thermal stability of potassium carbonate near its melting point RL Lehman, JS Gentry, NG Glumac Thermochimica Acta 316 (1), 1-9, 1998 | 171 | 1998 |
Temporal and spatial evolution of a laser spark in air N Glumac, G Elliott, M Boguszko AIAA journal 43 (9), 1984-1994, 2005 | 162 | 2005 |
A correlation for burn time of aluminum particles in the transition regime P Lynch, H Krier, N Glumac Proceedings of the Combustion Institute 32 (2), 1887-1893, 2009 | 158 | 2009 |
Synthesis of oxide nanoparticles in low pressure flames G Skandan, YJ Chen, N Glumac, BH Kear Nanostructured materials 11 (2), 149-158, 1999 | 153 | 1999 |
Molecular filtered Rayleigh scattering applied to combustion GS Elliott, N Glumac, CD Carter Measurement Science and Technology 12 (4), 452, 2001 | 141 | 2001 |
A practical approach to PIV uncertainty analysis E Lazar, B DeBlauw, N Glumac, C Dutton, G Elliott 27th AIAA aerodynamic measurement technology and ground testing conference, 4355, 2010 | 140 | 2010 |
Oxidizer and pressure effects on the combustion of 10-micron aluminum particles T Bazyn, H Krier, N Glumac Journal of propulsion and power 21 (4), 577-582, 2005 | 140 | 2005 |
The effect of ambient pressure on laser-induced plasmas in air N Glumac, G Elliott Optics and Lasers in Engineering 45 (1), 27-35, 2007 | 137 | 2007 |
Temperature measurements of aluminum particles burning in carbon dioxide N Glumac, H Krier, TIM Bazyn, R Eyer Combustion science and technology 177 (3), 485-511, 2005 | 131 | 2005 |
Combustion flame synthesis of nanophase materials N Glumac, BH Kear, G Skandan, Y Chen US Patent 5,876,683, 1999 | 122 | 1999 |
On nanoparticle aggregation during vapor phase synthesis A Singhal, G Skandan, A Wang, N Glumac, BH Kear, RD Hunt Nanostructured materials 11 (4), 545-552, 1999 | 117 | 1999 |
Gas-phase reaction in nanoaluminum combustion P Lynch, G Fiore, H Krier, N Glumac Combustion science and technology 182 (7), 842-857, 2010 | 98 | 2010 |
Combustion characteristics of aluminum hydride at elevated pressure and temperature T Bazyn, R Eyer, H Krier, N Glumac Journal of propulsion and power 20 (3), 427-431, 2004 | 98 | 2004 |
Reflected shock ignition and combustion of aluminum and nanocomposite thermite powders T Bazyn, N GLUMAC*, H Krier, TS Ward, M Schoenitz, EL Dreizin Combustion Science and Technology 179 (3), 457-476, 2007 | 94 | 2007 |
Emissivity of aluminum-oxide particle clouds: application to pyrometry of explosive fireballs P Lynch, H Krier, N Glumac Journal of thermophysics and heat transfer 24 (2), 301-308, 2010 | 91 | 2010 |