Mutz, Andrew Howard
- Vreeland, T., Jr. and Montilla, K. L., el al. (1997) Shock wave initiation of the Ti5Si3 reaction in elemental powders; Journal of Applied Physics; Vol. 82; No. 6; 2840-2844; 10.1063/1.366115
- Mutz, Andrew H. and Vreeland, Thad, Jr. (1993) Thermoelectric measurements of energy deposition during shock-wave consolidation of metal powders of several sizes; Journal of Applied Physics; Vol. 73; No. 10; 4862-4868; 10.1063/1.353802
- Krueger, B. R. and Mutz, A. H., el al. (1992) Shock-induced and self-propagating high-temperature synthesis reactions in two powder mixtures: 5:3 Atomic ratio Ti/Si and 1:1 Atomic ratio Ni/Si; Metallurgical Transactions A; Vol. 23; No. 1; 55-58; 10.1007/BF02660851
- Krueger, Barry R. and Mutz, Andrew H., el al. (1991) Correlation of shock initiated and thermally initiated chemical reactions in a 1:1 atomic ratio nickel-silicon mixture; Journal of Applied Physics; Vol. 70; No. 10; 5362-5368; 10.1063/1.350217
- Thadhani, N. N. and Mutz, A. H., el al. (1989) Structure/property evaluation and comparison between shock-wave consolidated and hot-isostatically pressed compacts of RSP pyromet 718 alloy powders; Acta Metallurgica; Vol. 37; No. 3; 897-908; 10.1016/0001-6160(89)90016-3
- Thadhani, Naresh N. and Mutz, Andrew H., el al. (1986) Amorphous phase separation in a shock consolidated glass-forming Ni_(55.8)Mo_(25.7)Cr_(9.7)B_(8.8) alloy powder; Scripta Metallurgica; Vol. 20; No. 4; 581-586; 10.1016/0036-9748(86)90258-9