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| Авторизация |
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| Billington D.S., Crawford J.H. — Radiation Damage in Solids |
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| Предметный указатель |
Smoluchowski, R. 26 110 202 205 211—212 273—276 286 289 297
Snell, A.H. 269
Snyder, W.S.. 33 38 40
Sodium axide, colloidal sodium 283
Sodium axide, decomposition of  283
Sodium axide, optical absorption 283
Sodium bromide, energy of formation of cation-anion, vacancy pairs 63
Sodium chloride, color centers 274 278—280
Sodium chloride, decoration of dislocations 73
Sodium chloride, density changes 285 297
Sodium chloride, diffusion coefficient 273
Sodium chloride, energy of formation of cation-anion vacancy pairs 63
Sodium chloride, hardness changes 297
Sodium chloride, ionic conductivity 273 figures
Sodium chloride, optical absorption 274 278—280
Sodium, elastic constants 102
Sokursky, Y.N. 379—380
Solution hardening, neutron bombardment 125
Sonder, E. 253 255 363—364
Sosin, A. 105 129 201
Spaepen, J. 289—290 294—295
Spalaris, C.N. 407 421
Spedding, F.J. 383
Spikes, displacement 37 41 43 47
Spikes, electron 42
Spikes, electron, range of primary recoils 45 figures 53
Spikes, fission, potassium chloride 303
Spikes, fission, uranium oxide, films 41
Spikes, fission, uranium-molybdenum 41 360
Spikes, fission, uranium-niobium 309
Spikes, from  reaction lithium fluoride 301
Spikes, plasticity 41 44
Spikes, thermal 41 figures
Spikes, thermal,  42 181
Spikes, thermal, gallium antimonide 222 224
Spikes, thermal, germanium 223
Spikes, thermal, indium antimonide 222 224
Spikes, thermal, quartz 227
Spikes, thermal, uranium 369 372
Spikes, thermal, uranium-molybdenum 369 386—387
Spikes, thermal, uranium-niobium 369 386
Spikes, thermal, zirconium oxide 42 235 387
Spilners, Aija 212
Spitsyn, A.V. 340
Sproull, R.L. 93 270—272 274—275 303
sputtering 8 9
Stackelberg, M. 7
Steel,  percent nickel, notch-impact properties 153
Steel, austenitie stainless, fatigue strength 185
Steel, austenitie stainless, ferrite 197
Steel, austenitie stainless, transformation 197
Steel, austenitie stainless, yield strength 136
Steel, austenitie stainless, Young’s modulus 102
Steel, carbon A 106, notch-impact properties 153
Steel, carbon A 106, temperature of irradiation 144
Steel, carbon A 106, tensile properties 144
Steel, carbon A-212, temperature of irradiation 144
Steel, carbon A-212, tensile properties 144
Steel, carbon A-212B, notch-impact properties 153
Steel, carbon A-212B, transition temperature 154
Steel, carbon A-285A, transition temperature 154
Steel, carbon A-301B, transition temperatam 154
Steel, carbon, temperature of irradiation 143
Steel, carbon, tensile properties 143
Steel, carbon, yield strength 136
Steel, carbon, yield stress 143
Steel, Carilloy T-1, embrittlement 156
Steel, Carilloy T-1, notch-impact properties, 153
Steel, Carilloy T-1, transition temperature 156
Steel, duplex microstructure 124
Steel, ferritic stainless, fatigue strength 165
Steel, ferritic stainless, yield strength 136
Steel, fracture 124
Steel, neutron bombardment 124
Steel, stainless 347, hardness 162
Steel, stainless 347, tensile properties 143
Steel, stainless 410, tensile properties 143
Steel, stainless weld metal, tensile properties 143
Steel, stainless, baroness 13ft
Steel, stainless, creep 161—182
Steel, stainless, tensile properties 143
Steele, R.V. 134
Stehle, H. 71
Stern, O. 285 287
Stevels, J.M. 249 259
Stevens, D.K. 250—253 255 264 360 362—363
Stored energy 103 figures
Stored energy, aluminum 105
Stored energy, copper 105—108
Stored energy, deuteron bombardment 106
Stored energy, diamond 219 248
Stored energy, electron bombardment 105
Stored energy, graphite 219 395 410 416
Stored energy, molybdenum 107
Stored energy, neutron bombardment 105
Stored energy, resistivity change 108
Stored energy, silicon carbide 222
Stored energy, sodium chloride 276
Strain measurements, creep 165
Stratton, K. 247
Straub, W.D. 333
Structure sensitivity, lattice imperfections 55
Structure sensitivity, radiation damage 55
Stubbington, C.A. 166
Stubbs, F.J. 383
Stumpf, H. 59 60
Sturm, W.J. 250—252 264 290—292 294
Sugihara, M. 206
Suita, T. 285 287
Sullivan, L.P. 197—198 386
Surface behavior, copper 123
Surface reaction 212 figures
Sykea, C. 175
Szymanski, K. 225
Takagi, Y. 208
Talbott, F.L. 35
Tantalum, deuteron bombardment 131
Tantalum, resistivity 111
Tantalum, thermal recovery 111
Taylor, E.H. 212
Taylor, G.I. 65
Taylor, W.E. 147 388 190—192 202
Temperature measurement 97 figures
Temperature measurement, calculation of errors 98
Temperature measurement, low temperature 98
Temperature measurement, thermocouple in radiation field 97
Temperature measurement, thermoelectric power 97
Tensile properties see also “Mechanical properties”
Tensile properties, aluminum 134
Tensile properties, aluminum alloys 134
Tensile properties, carbon steel 143
Tensile properties, carbon steel A-106 144
Tensile properties, carbon steel A-212 144
Tensile properties, copper 135
Tensile properties, Croloy 16 143
Tensile properties, Hastellov X 336
Tensile properties, Inconel X, double-aged 136
Tensile properties, Inconel X, single-aged 136
Tensile properties, Inconel-702 136
Tensile properties, K-monel 136
Tensile properties, low-carbon steels 155
Tensile properties, molybdenium 135
Tensile properties, neutron bombardment 134—135
Tensile properties, nickel 135
Tensile properties, stainless steel 347 143
Tensile properties, stainless steel 410 143
Tensile properties, stainless weld metal 143
Tensile properties, stainless, steel 143
Tensile properties, temperature of irradiation 144
Tensile properties, titanium 135
| Tensile properties, tungsten 135
Tensile properties, uranium 379
Tensile properties, weld metal E-7016 144
Tensile properties, zircaloy-2 133
Tensile properties, zirconium 133 135
Tewordt, L. 60 117
Thermal bleaching of absorption bands, alkali halides 274 figures 280 287
Thermal bleaching of absorption bands, diamond 241 figures
Thermal bleaching of absorption bands, lithium fluoride 292
Thermal bleaching of absorption bands, magnesium oxide 280
Thermal bleaching of absorption bands, silica system 257 262—264
Thermal conductivity, aluminium oxide 237 305—306
Thermal conductivity, beryllium oxide 237
Thermal conductivity, cordierite 237
Thermal conductivity, forstarite 237
Thermal conductivity, fused silica 225—227
Thermal conductivity, graphite 395—396 409 416
Thermal conductivity, ionic crystals 305 figures
Thermal conductivity, lithium fluoride 306
Thermal conductivity, mica 237
Thermal conductivity, plate glass 237
Thermal conductivity, porcelain 237
Thermal conductivity, potassium chloride 307
Thermal conductivity, quartz 227 231
Thermal conductivity, silica glass 237
Thermal conductivity, spinel 237
Thermal conductivity, titania 237
Thermal conductivity, uranium 381
Thermal conductivity, zircon 237
Thermal expansion, anisotropic in graphite 296
Thermal fission, cross sections 93
Thermal fission, half life 93
Thermal recovery see “Annealing”
Thermal resistivity see “Thermal conductivity”
Thermal spike see “Spikes thermal”
Thermoelectric power, graphite 399 figures
Thomas, L.A. 256
Thompson, D.O. 37 50 85 103 126—129
Thompson, M.W. 102 107 109 112
Threshold reactions, nuclear reactions 81
Titania, density change 237
Titania, thermal conductivity 237
Titania, Young’s modulus 238
Titanium, hardness 162
Titanium, mechanical properties 142
Titanium, range of recoils from  reactions 48
Titanium, resistivity 100
Titanium, temperature of irradiation 142
Titanium, tensile properties 135
Titova, V.V. 379—380
Torpinian, M. 110 177
Tournarle, M. 291—293
Towns, R.L. 236
Transition temperature, deuteron bombardment 152
Transition temperature, low-carbon steels 155
Transition temperature, mild steel 152
Transition temperature, neutron bombardment 154
Transition temperature, steel A-212B 154
Transition temperature, steel A-285A 154
Transition temperature, steel A-301B 154
Treaftis, H. 208
Trice, J.B, 82
Trudeau, L.P. 154
Truell, R. 236
Tucker, C.W. 102 208 202 294 298 378 387
Tungsten, electrode potenial 212
Tungsten, proton bombardment 110
Tungsten, resistivity 110 112—113 115
Tungsten, tensile properties 135
Tungsten, yield strength 136
Tungsten-aluminum, lattice expansion 102
Turkalo, A. 373
Tyler, W.W. 350
Ueda, T. 8
Ujuye, N. 164
Uranium 369 figures
Uranium alloys 384
Uranium alloys, displacement spike 385
Uranium alloys, fission fragments 369
Uranium alloys, fission gases 369
Uranium alloys, gamma-phase stabilization 385
Uranium alloys, phase reversion 369 385
Uranium alloys, uranium-molybdenum 369 385
Uranium alloys, uranium-niobium 369 385
Uranium alloys, yield strength 136
Uranium oxide stainless steel mixture, hardness 390
Uranium oxide stainless steel mixture, particle size 390
Uranium oxide, fission tracks in 44
Uranium, allotropic modifications 270
Uranium, alpha-phase stabilization 385
Uranium, annealing 381 384
Uranium, bubble formation 383
Uranium, cracks 384
Uranium, creep 369 378—380
Uranium, critical shear stress 371
Uranium, density 370
Uranium, diffusion, anisotropy 373
Uranium, dimensional changes 384
Uranium, ductility 370
Uranium, embrittlement 372 378
Uranium, expansion 381
Uranium, fission fragments 369 378
Uranium, fission gases 369 382
Uranium, grain boundaries 373
Uranium, growth 369 372—374 379—380
Uranium, hardness 376
Uranium, mechanical properties 371 374
Uranium, melting point 370
Uranium, microcracks 382
Uranium, micrstructure 378
Uranium, ratcheting 373
Uranium, resistivity 381
Uranium, stress relaxation 380
Uranium, swelling 372 380
Uranium, tensile properties 376 378—379
Uranium, thermal conductivity 381
Uranium, thermal cycling 373
Uranium, thermal cycling elongation 371
Uranium, thermal expansion 370 372
Uranium, thermal spike 269 372
Uranium, vacancy migration 373
Uranium, volume 374
Uranium, volume increase 383
Uranium, warping 384
Uranium, wrinkling 372 374 380 384
Uranium, yield strength 136
Uranium, Young’s modulus 378
Uranium-2 percent chromium 387
Uranium-aluminum, fission-gas escape 389
Uranium-aluminum, particle size 389
Uranium-aluminum, resistivity 388
Uranium-molybdenum 387
Uranium-molybdenum, gamma phase 386
Uranium-molybdenum, resistivity 386
Uranium-molybdenum, thermal spike 196 386
Uranium-niobium, resistivity 386
Uranium-niobium, thermal spike 106
Vacancies 56
Vacancies, activation energy 58 61
Vacancies, annihilation 60
Vacancies, diffusion 172
Vacancies, dislocation pinning 60
Vacancies, fatigue strength 166
Vacancies, formation from dislocations 71
Vacancies, mobility 58 60 61
Valley’s mechanism of defeet production 262
Van Wieringen, J.S. 259
Varley, J.H.O. 262 264 269 276 279
Vaughan, W.H. 297
Vavilov, V.S. 340
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