Materials Science and Engineering, A166 (1993) 243 Author Index of Volume 166 Adams, B. L., 59 Hondros, E. D., 1 Nutt, S. R., 199, 237 Averback, R. S., 169 Jones, R. H., 211 Porter, J. R., 179 Cannon, R. M., 221 Kalu, P. N., 135 Chen, D.-J., 145 Raj, R., 89 Kassner, M. E., 81, 237 Chen, I. W., 51 Ritchie, R. O., 221 Chokshi, A. H., 119 Rogers, S. A., 135 Langdon, T. G., 67, 237 Crooks, R., 135 Lipetzky, P., 199 Singh, R.N., 185 Smith, D. A., 29 Dalgleish, B. J., 221 Mayo, M. J., 145, 237 Dauskardt, R. H., 221 McNaney, J. M., 221 McNelley, T. R., 135 Tao, R., 169 Hague, D.C., 145 Mills, M. J., 35 Henager, Jr., C. H., 211 Wadsworth, J., 97, 237 Higashi, K., 109 Nichols, C. S., 29 Watanabe, T., 11, 237 Hofler, H. J., 169 Nieh, T. G., 97 Weertman, J. R., 161 Elsevier Sequoia Materials Science and Engineering, A166 (1993) 245-246 Subject Index of Volume 166 Alloys Fibre reinforcement positive exponent superplasticity in advanced aluminum interfacial properties and high-temperature mechanical alloys with nano or near-nano scale grained structures, 109 behavior of fiber-reinforced ceramic composites, 185 Aluminium positive exponent superplasticity in advanced aluminum Grain boundaries alloys with nano or near-nano scale grained structures, 109 aggregates of grain boundaries: structure and properties, 29 precipitation and recrystallization during processing of a grain boundary design and control for high temperature superplastic Al-10Mg-0.1Zr alloy, 135 materials, 11 high resolution transmission electron microscopy and atom- istic calculations of grain boundaries in metals and inter- Ceramics metallics, 35 high-temperature plasticity effects in bridged cracks and mobility control of ceramic grain boundaries and interfaces, subcritical crack growth in ceramic composites, 211 51 interfacial properties and high-temperature mechanical orientation imaging microscopy: application to _ the behavior of fiber-reinforced ceramic composites, 185 measurement of grain boundary structure, 59 mechanics and mechanisms of crack growth at or near role of small-angle (subgrain boundary) and large-angle (grain ceramic-metal interfaces: interface engineering strategies boundary) interfaces on 5- and 3-power-law creep, 81 for promoting toughness, 221 the role of grain boundaries in high temperature deformation, mobility control of ceramic grain boundaries and interfaces, 51 67 model for interface reaction control in superplastic deforma- Grain size tion of non-stoichiometric ceramics, 89 superplasticity in ceramic and metal matrix composites and processing nanocrystalline ceramics for applications in super- the role of grain size, segregation, interfaces, and second plasticity, 145 phase morphology, 97 reinforcements for ceramic—matrix composites for elevated superplasticity in grained ceramics and ceramic composites: temperature applications, 179 current understanding and future prospects, 119 superplasticity in ceramic and metal matrix composites and Grain structures the role of grain size, segregation, interfaces, and second positive exponent superplasticity in advanced aluminum phase morphology, 97 alloys with nano or near-nano scale grained structures, 109 superplasticity in grained ceramics and ceramic composites: current understanding and future prospects, 119 Hall-Petch strengthening Composites Hall-Petch strengthening in nanocrystalline metals, 161 high-temperature plasticity effects in bridged cracks and subcritical crack growth in ceramic composites, 211 Imaging microscopy interfacial properties and high-temperature mechanical orientation imaging microscopy: application to _ the behavior of fiber-reinforced ceramic composites, 185 measurement of grain boundary structure, 59 reinforcements for ceramic—matrix composites for elevated Interfaces temperature applications, 179 future research directions for interface engineering in high superplasticity in ceramic and metal matrix composites and temperature plasticity, 237 the role of grain size, segregation, interfaces, and second interfacial engineering—a perspective, | phase morphology, 97 interfacial properties and high-temperature mechanical superplasticity in grained ceramics and ceramic composites: behavior of fiber-reinforced ceramic composites, 185 current understanding and future prospects, 119 mechanics and mechanisms of crack growth at or near Cracking ceramic—metal interfaces: interface engineering strategies high-temperature plasticity effects in bridged cracks and for promoting toughness, 221 subcritical crack growth in ceramic composites, 211 mobility control of ceramic grain boundaries and interfaces, mechanics and mechanisms of crack growth at or near 51 ceramic—metal interfaces: interface engineering strategies model for interface reaction control in superplastic deforma- for promoting toughness, 221 tion of non-stoichiometric ceramics, 89 Creep role of small-angle (subgrain boundary) and large-angle (grain role of small-angle (subgrain boundary) and large-angle (grain boundary) interfaces on 5- and 3-power-law creep, 81 boundary) interfaces on 5- and 3-power-law creep, 81 superplasticity in ceramic and metal matrix composites and the role of grain size, segregation, interfaces, and second Deformation phase morphology, 97 model for interface reaction control in superplastic deforma- Intermetallics tion of non-stoichiometric ceramics, 89 high resolution transmission electron microscopy and atom- the role of grain boundaries in high temperature deformation, istic calculations of grain boundaries in metals and inter- 67 metallics, 35 Elsevier Sequoia 246 Magnesium processing nanocrystalline ceramics for applications in super- precipitation and recrystallization during processing of a plasticity, 145 superplastic Al-10Mg-0.1Zr alloy, 135 superplasticity in ceramic and metal matrix composites and Mechanical behaviour the role of grain size, segregation, interfaces, and second interfacial properties and high-temperature mechanical phase morphology, 97 behavior of fiber-reinforced ceramic composites, 185 superplasticity in grained ceramics and ceramic composites: Metals current understanding and future prospects, 119 Hall—Petch strengthening in nanocrystalline metals, 161 Precipitation high resolution transmission electron microscopy and atom- precipitation and recrystallization during processing of a istic calculations of grain boundaries in metals and inter- superplastic Al-10Mg-0.1Zr alloy, 135 metallics, 35 mechanics and mechanisms of crack growth at or near Recrystallization ceramic-metal interfaces: interface engineering strategies precipitation and recrystallization during processing of a for promoting toughness, 221 superplastic Al-10Mg-0.1Zr alloy, 135 Reinforcement reinforcements for ceramic—matrix composites for elevated Nano-grained materials temperature applications, 179 processing of nano-grained materials, 169 Nanocrystals Segregation Hall-Petch strengthening in nanocrystalline metals, 161 superplasticity in ceramic and metal matrix composites and processing nanocrystalline ceramics for applications in super- the role of grain size, segregation, interfaces, and second plasticity, 145 phase morphology, 97 Toughness Plasticity mechanics and mechanisms of crack growth at or near future research directions for interface engineering in high ceramic-metal interfaces: interface engineering strategies temperature plasticity, 237 for promoting toughness, 221 high-temperature plasticity effects in bridged cracks and Transmission electron microscopy subcritical crack growth in ceramic composites, 211 high resolution transmission electron microscopy and atom- model for interface reaction control in superplastic deforma- istic calculations of grain boundaries in metals and inter- tion of non-stoichiometric ceramics, 89 metallics, 35 positive exponent superplasticity in advanced aluminum alloys with nano or near-nano scale grained structures, 109 Zirconium precipitation and recrystallization during processing of a precipitation and recrystallization during processing of a superplastic Al-10Mg-0.1Zr alloy, 135 superplastic Al-10Mg-0.1Zr alloy, 135