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Joseph M. Kalman
Joseph M. Kalman
Mechanical and Aerospace Engineering, California State University, Long Beach
在 csulb.edu 的电子邮件经过验证 - 首页
标题
引用次数
引用次数
年份
A study of solid ramjet fuel containing boron–magnesium mixtures
ET Sandall, J Kalman, JN Quigley, S Munro, TD Hedman
Propulsion and Power Research 6 (4), 243-252, 2017
922017
Enhanced ignition of milled boron-polytetrafluoroethylene mixtures
TD Hedman, AR Demko, J Kalman
Combustion and Flame 198, 112-119, 2018
532018
Small-scale solid ramjet fuel ignition experiment
TD Hedman, JN Quigley, J Kalman, EB Washburn
Journal of Propulsion and Power 33 (5), 1315-1319, 2017
342017
Synchrotron-based measurement of aluminum agglomerates at motor conditions
J Kalman, AR Demko, B Varghese, KE Matusik, AL Kastengren
Combustion and Flame 196, 144-146, 2018
322018
Optical Depth Effects on Aluminum Oxide Spectral Emissivity
J Kalman, N Glumac, H Krier
Journal of Thermophysics and Heat Transfer 29 (1), 74-82, 0
28*
Nano‐Computed Tomographic Measurements of Partially Decomposed Ammonium Perchlorate Particles
J Kalman, T Hedman, B Varghese, G Dagliyan
Propellants, Explosives, Pyrotechnics 42 (9), 1111-1116, 2017
242017
Influence of Particle Size on the Combustion of CL‐20/HTPB Propellants
J Kalman, J Essel
Propellants, Explosives, Pyrotechnics 42 (11), 1261-1267, 2017
23*2017
Single particle combustion of pre-stressed aluminum
KJ Hill, ML Pantoya, E Washburn, J Kalman
Materials 12 (11), 1737, 2019
172019
On the origin and use of the emissivity approximations for alumina particles
J Kalman, T Hedman
Propellants, Explosives, Pyrotechnics 41 (5), 793-797, 2016
162016
Influence of HTPB variants on the wettability of ammonium perchlorate
DJ Ramirez, J Kalman
AIAA Scitech 2020 Forum, 0425, 2020
132020
A strategy for increasing the energy release rate of aluminum by replacing the alumina passivation shell with aluminum iodate hexahydrate (AIH)
J Kalman, DK Smith, KK Miller, SK Bhattacharia, KR Bratton, ML Pantoya
Combustion and Flame 205, 327-335, 2019
132019
Synchrotron based measurement of the temperature dependent thermal expansion coefficient of ammonium perchlorate
R Kellogg, S Lapidus, T Hedman, J Kalman
Propellants, Explosives, Pyrotechnics 45 (3), 480-485, 2020
112020
Synthesis of metal iodates from an energetic salt
I Shancita, KK Miller, PD Silverstein, J Kalman, ML Pantoya
RSC advances 10 (24), 14403-14409, 2020
112020
High-temperature metal oxide spectral emissivities for pyrometry applications
J Kalman, N Glumac, H Krier
Journal of thermophysics and heat transfer 29 (4), 874-879, 2015
112015
Effects of select metal oxides on the onset, rate and extent of low temperature ammonium perchlorate decomposition
ED Tolmachoff, LC Baldwin, JT Essel, TD Hedman, SE Kalman, J Kalman
Journal of Energetic Materials 40 (4), 429-444, 2022
102022
Are all solid propellant burning rate modifiers catalysts?
J Kalman
Propellants, Explosives, Pyrotechnics 47 (9), e202200148, 2022
92022
Influence of Hydroxyl-Terminated Polybutadiene Variants on the Wettability of Ammonium Perchlorate
D Ramirez, J Kalman, J Essel
Journal of Propulsion and Power 38 (4), 647-655, 2022
62022
Experimental study of constant volume sulfur dust explosions
J Kalman, NG Glumac, H Krier
Journal of Combustion 2015 (1), 817259, 2015
62015
Investigation of Hydroxyl-terminated Polybutadiene Droplets Impacting Ammonium Perchlorate and Polytetrafluoroethylene Surfaces
S Raissi, J Kalman
AIAA SCITECH 2022 Forum, 2616, 2022
42022
Computational study on the flame and extinction behavior of a high enthalpy air slab
A Gonzalez, J Kalman, E Madadi-Kandjani
Physics of Fluids 34 (6), 2022
22022
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