Kozo Saito
Kozo Saito
Professor Emeritus, Mechanical and Aerospace Engineering, University of Kentucky
Verified email at
Cited by
Cited by
Role of buoyant flame dynamics in wildfire spread
MA Finney, JD Cohen, JM Forthofer, SS McAllister, MJ Gollner, ...
Proceedings of the National Academy of Sciences 112 (32), 9833-9838, 2015
Evolution of the automotive body coating process—A review
NK Akafuah, S Poozesh, A Salaimeh, G Patrick, K Lawler, K Saito
Coatings 6 (2), 24, 2016
Upward turbulent flame spread
K Saito, JG Quintiere, FA Williams
Fire safety science: proceedings of the first international symposium 1, 75, 1986
Ethylene flame synthesis of well-aligned multi-walled carbon nanotubes
L Yuan, K Saito, W Hu, Z Chen
Chemical Physics Letters 346 (1), 23-28, 2001
Nanotubes from methane flames
L Yuan, K Saito, C Pan, FA Williams, AS Gordon
Chemical Physics Letters 340 (3), 237-241, 2001
Growth of well-aligned carbon nanotube arrays on silicon substrates using porous alumina film as a nanotemplate
W Hu, D Gong, Z Chen, L Yuan, K Saito, CA Grimes, P Kichambare
Applied Physics Letters 79 (19), 3083-3085, 2001
Silicon morphology modification in the eutectic Al–Si alloy using mechanical mold vibration
N Abu-Dheir, M Khraisheh, K Saito, A Male
Materials Science and Engineering: A 393 (1-2), 109-117, 2005
Reconstruction of fire whirls using scale models
S Soma, K Saito
Combustion and Flame 86 (3), 269-284, 1991
Modeling CVD synthesis of carbon nanotubes: Nanoparticle formation from ferrocene
K Kuwana, K Saito
Carbon 43 (10), 2088-2095, 2005
Convection-diffusion controlled laminar micro flames
H Ban, S Venkatesh, K Saito
Journal of Heat Transfer 116 (4), 954-959, 1994
Growth mechanism of carbon nanotubes in methane diffusion flames
L Yuan, T Li, K Saito
Carbon 41 (10), 1889-1896, 2003
A study of the early history of soot formation in various hydrocarbon diffusion flames
K Saito, AS Gordon, FA Williams, WF Stickle
Combustion Science and Technology 80 (1-3), 103-119, 1991
Scaling fire whirls
K Kuwana, K Sekimoto, K Saito, FA Williams
Fire Safety Journal 43 (4), 252-257, 2008
Modeling the disintegration of modulated liquid jets using volume-of-fluid (VOF) methodology
V Srinivasan, AJ Salazar, K Saito
Applied mathematical modelling 35 (8), 3710-3730, 2011
Catalyst deactivation in CVD synthesis of carbon nanotubes
K Kuwana, H Endo, K Saito, D Qian, R Andrews, EA Grulke
Carbon 43 (2), 253-260, 2005
A study of flame spread over alcohols using holographic interferometry
A Ito, D Masuda, K Saito
Combustion and Flame 83 (3), 375-389, 1991
IR self-referencing thermography for detection of in-depth defects
M Omar, MI Hassan, K Saito, R Alloo
Infrared Physics & Technology 46 (4), 283-289, 2005
CFD prediction of carbon nanotube production rate in a CVD reactor
H Endo, K Kuwana, K Saito, D Qian, R Andrews, EA Grulke
Chemical Physics Letters 387 (4), 307-311, 2004
The burning rate’s effect on the flame length of weak fire whirls
K Kuwana, S Morishita, R Dobashi, KH Chuah, K Saito
Proceedings of the Combustion Institute 33 (2), 2425-2432, 2011
Structure of laminar coflow methane-air diffusion flames
K Saito, FA Williams, AS Gordon
J. Heat Transfer: (United States) 108 (3), 1986
The system can't perform the operation now. Try again later.
Articles 1–20