Solidification microstructure evolution in the presence of inert particles JA Sekhar, R Trivedi Materials Science and Engineering: A 147 (1), 9-21, 1991 | 105 | 1991 |
Ultrahigh implant activation efficiency in GaN using a high-temperature rapid thermal process system XA Cao, CR Abernathy, RK Singh, SJ Pearton, M Fu, V Sarvepalli, ... Applied physics letters 73 (2), 229-231, 1998 | 93 | 1998 |
Solidification microstructures near the limit of absolute stability R Trivedi, JA Sekhar, V Seetharaman Metallurgical Transactions A 20, 769-777, 1989 | 78 | 1989 |
Numerical modeling of solidification combustion synthesis MG Lakshmikantha, A Bhattacharya, JA Sekhar Metallurgical Transactions A 23, 23-34, 1992 | 75 | 1992 |
Effect of pressure on metal-die heat transfer coefficient during solidification JA Sekhar, GJ Abbaschian, R Mehrabian Materials Science and Engineering 40 (1), 105-110, 1979 | 73 | 1979 |
Microstructure and properties of MoSi2–MoB and MoSi2–Mo5Si3 molybdenum silicides JH Schneibel, JA Sekhar Materials Science and Engineering: A 340 (1-2), 204-211, 2003 | 65 | 2003 |
Reinforced solder, brazing and welding compositions and methods for preparation thereof JA Sekhar US Patent 5,127,969, 1992 | 64 | 1992 |
Analytical modeling of the propagation of a thermal reaction front in condensed systems M Lakshmikantha, JA Sekhar Journal of the American Ceramic Society 77 (1), 202-210, 1994 | 60 | 1994 |
Metal-ceramic composites based on the Ti-B-Cu porosity system HP Li, SB Bhaduri, JA Sekhar Metallurgical Transactions A 23, 251-261, 1992 | 58 | 1992 |
An investigation of the effect of porosity and diluents on micropyretic synthesis MG Lakshmikantha, JA Sekhar Metallurgical Transactions A 24, 617-628, 1993 | 54 | 1993 |
The influence of the reactant size on the micropyretic synthesis of NiAl intermetallic compounds HP Li, JA Sekhar Journal of materials research 10, 2471-2480, 1995 | 52 | 1995 |
Development of solidification microstructures in the presence of fibers or channels of finite width JA Sekhar, R Trivedi Materials Science and Engineering: A 114, 133-146, 1989 | 49 | 1989 |
Graded non-consumable anode materials JA Sekhar, J Liu, H Deng, JJ Duruz, V de Nora LIGHT METALS-WARRENDALE-, 597-604, 1998 | 48 | 1998 |
Process for producing a porous ceramic and porous ceramic composite structure utilizing combustion synthesis JA Sekhar, SB Bhaduri US Patent 5,279,737, 1994 | 48 | 1994 |
Modulated and regenerative ceramic filter with insitu heating element JA Sekhar, V Gupta, S Penumella US Patent 5,766,458, 1998 | 42 | 1998 |
Micropyretic synthesis of tough NiAl alloys GK Dey, JA Sekhar Metallurgical and Materials Transactions B 28, 905-918, 1997 | 42 | 1997 |
Rapid solidification by unstable combustion synthesis HP Li, JA Sekhar Journal of materials research 8 (10), 2515-2523, 1993 | 42 | 1993 |
Materials used in the Hall-Heroult cell for aluminum production H Zhang, J Sekhar | 41 | 1994 |
Heat flow model for surface melting and solidification of an alloy JA Sekhar, S Kou, R Mehrabian Metallurgical Transactions A 14, 1169-1177, 1983 | 41 | 1983 |
Electrochemical cell component or other material having oxidation preventive coating JA Sekhar, V De Nora US Patent 5,364,513, 1994 | 40 | 1994 |