Авторизация
Поиск по указателям
Graham R.A. — Solids under high-pressure shock compression: mechanics, physics, and chemistry
Обсудите книгу на научном форуме Нашли опечатку?
Название: Solids under high-pressure shock compression: mechanics, physics, and chemistryАвтор: Graham R.A. Аннотация: Since the 1950s shock compression research contributed greatly to scientific knowledge and industrial technology. As a result, for example, our understanding of meteorite impacts has substantially improved, and shock processes have become standard industrial methods in materials synthesis and processing. Investigations of shock-compressed matter involve physics,electrical engineering, solid mechanics, metallurgy, geophysics and materials science. The description of shock-compressed matter presented here, which is derived from physical and chemical observations, differs significantly from the classical descriptions derived from strictly mechanical characteristics. This volume, with over 900 references, provides an introduction for scientists and engineers interested in the present state of shock compression science.
Язык: Рубрика: Физика /Статус предметного указателя: Готов указатель с номерами страниц ed2k: ed2k stats Год издания: 1993Количество страниц: 221Добавлена в каталог: 18.10.2005Операции: Положить на полку |
Скопировать ссылку для форума | Скопировать ID
Предметный указатель
"Pillow" impactor 60 "Roller model" 40 146 "Tilt" 58 51 150 151 157 Acceleration waves 61 Acrylamide 8 Adadurov, G.A. 7 143 Adams, J. v Ahrens, T.J. 54 Al'tshuler, L.V. 7 39 40 Aluminum alloy 8 31 35 42 149 Aluminum nitride 162—164 175 Aluminum oxide, crystalline 8 see Aluminum oxide, powder 162—165 177 178 Anan'in, A.V. 175 Anderson, M.U. 45 105 Asay, J.R. 24 30 35 42 48 53 82 Astrophysics vii Atomic bomb 6 Attetkov, A.V. 148 Baratol high explosive 57 58 152—158 Barker, L.M. 23 60 65 Barrington, J. 143 Bartel, L.R. 122 Batsanov, S.S. 7 143 Bauer poling 105 Bauer, F. 104 105 114 Bauschinger effect 31 Bear recovery fixtures 152 155 158 Beauchamp, E.K. 175 177 Belov, K.P. 121 Benedick, W.B. 32 90 98 99 137 Benign shock 5 Bergmann, O.R. 143 Bertha recovery fixtures 152 158 Beryllium 31 BET specific surface area 161 162 Boslough, M.B. 143 194 Breusov, O.N. 38 40 146 Bridgman, P.W. 37 199 Brooks, W.P. 32 33 Brown, J.M. 49 Cadmium sulfide 8 25 Cagnoux, J. 54 Calcium carbonate 25 Calibration 66 67 Carr, M.J. 167 Casey, W.H. 174 Catalytic activity 172 Catastrophic shock 5 34 39 40 Cesium bromide 130 Cesium iodide 130 Charge mode 107 Chemical synthesis, early 144 Chemical synthesis, nickel aluminides 184—192 Chemical synthesis, zinc ferrite 180—184 Chen, P.J. 77 Cheret, R. i Chhabildas, L.C. 54 Composites, review 10 Composition B 55 57 58 152 155 158 181 Conner, M.P. 24 Conservation relations 18 36 Continuum theory 21 copper 8 31 149 Craters 9 Crush strength, powder 51 154 Crystallographic shear 168 CSQ computer code 157 Curie point, ferroelectric 113 Curie point, ferromagnetic 114 115 121 Curie, J. 104 Curie, P. 104 Curran, D.R. 42 45 46 116 Current mode 75 106 Cyclotol high explosive 58 Dally, E.B. 43 Davison, L.W. viii 6 9 15 33 36 45 47 72 77 78 81 84 89 92 114 130 DeCarli, P. 7 143 Deformation gradient 22 Deformation potential 91 93 94 96 Diamond synthesis 143 144 Dick, J.J. 127 Dielectric breakdown 72 87—89 Dielectric permittivity 73 85—87 Diffusion 141 Digitizers 109 Dislocation dynamics 29 Dissolution 172—174 Doran, D.G. 114 Dremin, A.N. 38 40 45 146 Dunn, J.E. 34 Dupont 7 143 Duvall, G.E. 7 16 27—29 39 49 125 126 Dynamic yield point 28 Eden, G. i Edwards, L.R. 122 125 Effective mass, semiconductors 91 Ehrenfest relations 115 Elastic constants, fourth-order 23—25 73 Elastic constants, second-order 25 73 Elastic constants, third-order 25 73 Elastic dielectric 100 105 Electric fields 75 76 88 89 Electrical conduction, dielectrics 83—85 87 Electrical conductivity, metals 127 128 Electrical conductivity, semiconductors 90—94 Electrical-to-chemical 138 Electrochemistry 134—135 Electrolytes 134—136 Electromagnetic gauge 64 65 Electromechanical coupling 72 76 81 Electron spin resonance 166 167 Electrostriction 45 73 85 Energy localization 147 epoxy 132 133 Equation of state 3 7 37 Equation of state, reviews 10 Erkman, J.O. 43 Ferrites 170 171 Ferroelectrics 89 104 113 114 First-order behavior 51 Fluidlike flow 4 5 18 Follansbee, P.S. 36 Fowles, G.R. 15 32 Galvanic cell 135 Geophysics, reviews 10 54 Germanium 25 31 90 Germanium, n-type 90 93 94 Gol'danskii, V.L. i Grady, D.E. 20 33 34 103 Graham, B. v Graham, R.A. i 6 9 15 23 27 32 33 37 39 47 53 54 61 72 77 78 81 82 84 86 88 89 92 93 99 102 114 117—119 125—127 130—133 145 152—154 156 157 178 180 182 Grueneisen coefficient 50 Gupta, Y.M. 40 67 82 128 Hall effect 90 Halpin, W.J. 114 Hammetter, W.F. 187 188 194 Hankey, D.L. 174 Hanson, R.C. 82 Hasiguti, R.R. 166 167 Hauver, G.E. 87 Hayes, D.B. 40 48 Hedvall, J.A. 142 200 Hellmann, J.R. 175 Hematite 162—165 169 181 Hemsing, W.F. 65 Hercynite 194 Herrmann, W. 15 51 150 151 Hole mobility, semiconductors 91 Hollenbach, R.E. 23 Holt, A.C. 51 Horie, Y. 148 185 189 194 Horiguchi, Y. 143 Hruska, C.K. 72 Hugoniot elastic limit 5 17 20 24 27—30 94 107 Hugoniot elastic limit, summary 31 Hugonium 4 Hydrodynamic flow 36 Hydrostatic compression 27 31 32 Impact loading see "Loading" In-situ measurements 54 Indium antimonide 25 Ingram, G.E. 86 88 89 Institut Saint Louis 105 Instrumentation summary 63 Invar 116 119 Ionic crystals 130 Iron 8 31 38 120 149 150 Iron alloys 8 39 116 125 Iron sulfide 134 Ivanov, A.G. 45 130 131 Jacobson, R.D. 93 Jamieson, J.C. 7 Japanese Defense Academy 143 Jing, F. i Johnson, J.N. i Johnson, W.E. 51 Jones, O.E. 27 Julian, C.L. 90 93 Kawai, H. 104 Kel F 107 Kennedy, J.D. 90 93 Kimura, Y. 7 143 180 Kormer, S.B. 6 Ktech Corporation 105 Lagrangian computer code 154 Lagrangian conservation relations 21 Lagrangian measurements 54 Lanthanum hexaboride 163 166 Lawrence Livermore Laboratory 7 Lawrence, R.J. 77 Lee, L.M. 105 Lipkin, J. 35 Lithium chloride-potassium chloride eutectic 134 135 Lithium deuteride 130 Lithium fluoride 29 30 130 Lithium hydride 130 Lithium niobate 8 73 80 81 89 103 Loading, high explosive 55—58 Loading, impact 55 60 77 117 131 Loading, pulsed laser 55 Loading, pulsed neutrons 55 Loading, pulsed x-rays 55 Loading, shear 60 62 Localized melting 186 Los Alamos Scientific Laboratory 6 7 56 143 152 Lysne, P.C. 76 87 Magnesium oxide 25 130 Magnesium silicate 173 magnetite 171 magnetization 182 Magnetization change 122 123 125 126 Magnetostriction 45 Manganese oxide 162 Manganin gauge 64 67 Martin, R.M. 82 83 Materials synthesis, reviews 10 McKelvey, J.F. 92 McMahan, A.K. 37 McQueen, R.G. 7 41 42 Mean pressure 26 Mean-bulk temperature 181 182 184 Mechanically induced bond scission 133 Melting 11 48 49 Metal working, review 10 Metallurgical "mud" 7 31 Metallurgical effects, review 10 Metravib RDS Company 106 Meyer, M.A. 51 194 Mineev, V.N. 130 131 Minshall, S. 28 37 Moessbauer spectroscopy 168—170 182 183 Molybdenum 149 Moore, L.M. 105 Morin transition 169 Morosin, B. 163 165 Morris, C.E. 15 54 Murri, W.J. 15 27 51 National Research Council Pimentel Report 179 Naval Ordnance Laboratory 7 Neilson, F.W. 7 32 98 99 113 137 Nellis, W.J. 37 Nickel 149 Nickel-aluminide synthesis 184—192 Nicol, M.F. i Niobium-silicon 191 192 Nomura, Y. 143 Nonlinear elastic compression 21 Novitskii, E.Z. 89 114 Numerical simulation 51 52 Numerical simulation, recovery fixtures 153—157 Numerical simulation, reviews 10 Nunziato, J.W. 15 45 46 Nylon 132 o-nitroanisole 87 Oh, K. 50 Optical devices 64 65 Optical properties, review 10 Paradigms, benign 5 Paradigms, catastrophic 5 34 Paradigms, only fluids react 144 PBX high explosive 55 58 Persson, P. 50 Phase transformations 6 28 37 51 Phase transformations, iron alloys 39 Phase transformations, reviews 40 Phase transformations, waveshapes 38 Piezoelectric constants 80 82 95 Piezoelectric constitutive equations 73 Piezoelectric current 74 75 78 111 Piezoelectric gauges 64 Piezoelectric lithium niobate 73 75 77—79 Piezoelectric nonlinear 73—75 Piezoelectric PVDF 108—112 Piezoelectric quartz 73 75 77—79 Piezoelectric theory 82 83 Piezoresistant gauges 64 65 PMMA 8 46 Polarization, piezoelectric 75 79 83 110 112 Polarization, shock-induced 6 128—134 Polyethylene 132 Polyethylene terephthalate 132 133 Polymethylmethacrylate 132 Polypyromellitimide 132 133 polystyrene 132 133 Polysulfone 132 133 Polyvinylidene difluoride 41 104 Pore collapse 148 Porous solids 49—51 149—153 Porous solids, crush strength 155 Potassium bromide 130 Potassium chloride 40 130 Powder morphology 188—189 Precursor decay 29 Pressure scale 8 Pressure, mean 26 Proceedings, American Physical Society 11 Pulse duration 44 PVDF 41 43 104—113
Реклама
model 
|
|
О проекте