Prediction of temperature distribution and thermal history during friction stir welding: input torque based model MZH Khandkar, JA Khan, AP Reynolds Science and technology of welding and joining 8 (3), 165-174, 2003 | 505 | 2003 |
Predicting residual thermal stresses in friction stir welded metals MZH Khandkar, JA Khan, AP Reynolds, MA Sutton Journal of Materials Processing Technology 174 (1-3), 195-203, 2006 | 213 | 2006 |
Enhancement of heat transfer by inserting a metal matrix into a phase change material X Tong, JA Khan, M RuhulAmin Numerical Heat Transfer, Part A Applications 30 (2), 125-141, 1996 | 213 | 1996 |
Enhanced flow boiling in a microchannel with integration of nanowires A Morshed, F Yang, MY Ali, JA Khan, C Li Applied Thermal Engineering 32, 68-75, 2012 | 181 | 2012 |
Relationships between weld parameters, hardness distribution and temperature history in alloy 7050 friction stir welds AP Reynolds, W Tang, Z Khandkar, JA Khan, K Lindner Science and Technology of Welding and Joining 10 (2), 190-199, 2005 | 179 | 2005 |
Design and multi-objective optimization of heat exchangers for refrigerators AK Gholap, JA Khan Applied Energy 84 (12), 1226-1239, 2007 | 165 | 2007 |
Dynamic centrifugal compressor model for system simulation W Jiang, J Khan, RA Dougal Journal of power sources 158 (2), 1333-1343, 2006 | 162 | 2006 |
Flow boiling phenomena in a single annular flow regime in microchannels (I): Characterization of flow boiling heat transfer F Yang, X Dai, Y Peles, P Cheng, J Khan, C Li International journal of heat and mass transfer 68, 703-715, 2014 | 161 | 2014 |
Prediction of nugget development during resistance spot welding using coupled thermal–electrical–mechanical model JA Khan, L Xu, YJ Chao Science and Technology of Welding and Joining 4 (4), 201-207, 1999 | 136 | 1999 |
Numerical simulation of resistance spot welding process JA Khan, L Xu, YJ Chao, K Broach Numerical Heat Transfer: Part A: Applications 37 (5), 425-446, 2000 | 132 | 2000 |
Thermal modeling of overlap friction stir welding for Al-alloys MZH Khandkar, JA Khan Journal of Materials Processing and Manufacturing Science 10 (2), 91-105, 2001 | 127 | 2001 |
Condensation on hybrid-patterned copper tubes (I): Characterization of condensation heat transfer M Alwazzan, K Egab, B Peng, J Khan, C Li International Journal of Heat and Mass Transfer 112, 991-1004, 2017 | 126 | 2017 |
The thermal modeling of a matrix heat exchanger using a porous medium and the thermal non-equilibrium model AM Hayes, JA Khan, AH Shaaban, IG Spearing International Journal of Thermal Sciences 47 (10), 1306-1315, 2008 | 107 | 2008 |
Effect of nanostructures on evaporation and explosive boiling of thin liquid films: a molecular dynamics study A Morshed, TC Paul, JA Khan Applied Physics A 105, 445-451, 2011 | 99 | 2011 |
Thermal analysis of flip-chip packaged 280 nm nitride-based deep ultraviolet light-emitting diodes M Shatalov, A Chitnis, P Yadav, MF Hasan, J Khan, V Adivarahan, ... Applied Physics Letters 86, 2005 | 96 | 2005 |
Flow boiling phenomena in a single annular flow regime in microchannels (II): Reduced pressure drop and enhanced critical heat flux F Yang, X Dai, Y Peles, P Cheng, J Khan, C Li International Journal of Heat and Mass Transfer 68, 716-724, 2014 | 84 | 2014 |
Parameter setting and analysis of a dynamic tubular SOFC model W Jiang, R Fang, JA Khan, RA Dougal Journal of Power Sources 162 (1), 316-326, 2006 | 83 | 2006 |
Effects of inlet and exhaust locations and emitted gas density on indoor air contaminant concentrations JA Khan, CE Feigley, E Lee, MR Ahmed, S Tamanna Building and Environment 41 (7), 851-863, 2006 | 82 | 2006 |
Effect of Cu–Al2O3 nanocomposite coating on flow boiling performance of a microchannel A Morshed, TC Paul, J Khan Applied Thermal Engineering 51 (1-2), 1135-1143, 2013 | 80 | 2013 |
Enhanced flow boiling in microchannels through integrating multiple micro-nozzles and reentry microcavities W Li, X Qu, T Alam, F Yang, W Chang, J Khan, C Li Applied Physics Letters 110 (1), 2017 | 76 | 2017 |