Michael E. Reiss, Ph.D.
Affiliations: | 2003 | Johns Hopkins University, Baltimore, MD |
Area:
Materials Science EngineeringGoogle:
"Michael Reiss"Mean distance: 8847.33
Parents
Sign in to add mentorTimothy Weihs | grad student | 2003 | Johns Hopkins | |
(Multilayer reactive foils: Fabrication, reaction characterization, and room -temperature joining.) |
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Publications
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Duckham A, Spey SJ, Wang J, et al. (2004) Reactive nanostructured foil used as a heat source for joining titanium Journal of Applied Physics. 96: 2336-2342 |
Wang J, Besnoin E, Duckham A, et al. (2004) Joining of stainless-steel specimens with nanostructured Al/Ni foils Journal of Applied Physics. 95: 248-256 |
Wang J, Besnoin E, Duckham A, et al. (2003) Room-temperature soldering with nanostructured foils Applied Physics Letters. 83: 3987-3989 |
Blobaum KJ, Reiss ME, Plitzko Lawrence JM, et al. (2003) Deposition and characterization of a self-propagating CuO |
Jayaraman S, Mann AB, Reiss M, et al. (2001) Numerical study of the effect of heat losses on self-propagating reactions in multilayer foils Combustion and Flame. 124: 178-194 |
Gavens AJ, Van Heerden D, Mann AB, et al. (2000) Effect of intermixing on self-propagating exothermic reactions in Al/Ni nanolaminate foils Journal of Applied Physics. 87: 1255-1263 |
Reiss ME, Esber CM, Van Heerden D, et al. (1999) Self-propagating formation reactions in Nb/Si multilayers Materials Science and Engineering A. 261: 217-222 |
Mann AB, Gavens AJ, Reiss ME, et al. (1997) Modeling and characterizing the propagation velocity of exothermic reactions in multilayer foils Journal of Applied Physics. 82: 1178-1188 |
Weihs TP, Gavens AJ, Reiss ME, et al. (1997) Self-propagating exothermic reactions in nanoscale multilayer materials Tms Annual Meeting. 75-86 |