Peiser H.S, (ed.), Rooksby H.P. (ed.), Wilson A.J.C. (ed.) — X-Ray Diffraction by Polycrystalline Materials. Physics in Industry :: Электронная библиотека попечительского совета мехмата МГУ

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Peiser H.S, (ed.), Rooksby H.P. (ed.), Wilson A.J.C. (ed.) — X-Ray Diffraction by Polycrystalline Materials. Physics in Industry

$Peiser H.S, (ed.), Rooksby H.P. (ed.), Wilson A.J.C. (ed.) — X-Ray Diffraction by Polycrystalline Materials. Physics in Industry$

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Название: X-Ray Diffraction by Polycrystalline Materials. Physics in Industry

Авторы: Peiser H.S, (ed.), Rooksby H.P. (ed.), Wilson A.J.C. (ed.)

Аннотация:

For anyone WI10 has been concerned with X-ray analysis since its early days, it. is fascinating to see how the subject continues to grow and ramify. The present book is a striking illustration of this development. Although it deals with only one branch of crystal analysis, the study of polycrysta]line materials, it has been found desirable tQ invite some thirty experts to make their contributions in order that each aspect of the subject might be covered in an authoritative way. That it has been possible to weld contributions from so many authors into a coherent scheme is both a tribute to the editors and an excellent exalllple of that happy collaboration that has existed froITi the very beginning amongst X-ray crystallographers and continues so manifstly at the present time.

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Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Издание: 1st edition

Год издания: 1955

Количество страниц: 725

Добавлена в каталог: 06.09.2009

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID

Предметный указатель

Fournet, G. 237, 239, 441, 443, 447, 448, 452, 453
Fournier, F.      284
Fournier, F. 284
Fraenkel, G.      550 556
Fraenkel, G. 550, 556
Francis, F.      515
Francis, F. 515
Franklin, R.E.      437 452 616
Franklin, R.E. 437, 452, 616
Franks, A.      240
Franks, A. 240
Fraser, R.W.B.      555
Fraser, R.W.B. 555
Frazer, B.C.      274
Frazer, B.C. 274
Free electrons, electron-rich alloys      591—592
Free electrons, electron-rich alloys 591—592
Free electrons, influence on alloy formation      586
Free electrons, influence on alloy formation 586
Freezing mixtures      267
Freezing mixtures 267
Frenkel, J.      443
Frenkel, J. 443
Freund, E.      540
Freund, E. 540
Frevel, L.K.      115 132 229 329 331 335 507 515
Frevel, L.K. 115, 132, 229, 329, 331, 335, 507, 515
Friedel's law      48
Friedel's law 48
Friedman, H.      195 198 214 219 229 260 261 326
Friedman, H. 195, 198, 214, 219, 229, 260, 261, 326
Friedrich, W.      825 626
Friedrich, W. 625, 626
Fritz, K.      137
Fritz, K. 137
Frohnmeyer, G. 455, 456
Frolinmeyer, G.      455 456
Frommer, L.      180 181 460
Frommer, L. 180, 181, 460
Fuerth, R.      76
Fuller, E.W.      201
Fuller, E.W. 201
Fuller, M.L.      475
Fuller, M.L. 475
Furnaces for high-temperature cameras      246—249 251—254 260
Furnaces for high-temperature cameras 246—249, 251—254, 260
Furth, R. 76
Gad, G.M.      568
Gad, G.M. 568
Galvanometers, Geiger-counter current measurement      201
Galvanometers, Geiger-counter current measurement 201
Galvanometers, Geiger-eounter current measurement      201
Galvanometers, microdensitometer measurement      76
Galvanometers, microdensitometer measurement 76
Gamer, E.V.      482 499—511 534 543
Garner, E.V. 482, 499—511, 534, , 543
Garnets, Portland cement      571—572
Garnets, Portland cement 571—572
Garnets, steel inclusions      569
Garnets, steel inclusions 569
Garrod, R.I.      64
Garrod, R.I. 64
Gas cooling of specimen      268 270—273
Gas cooling of specimen 268, 270—273
Gas multiplication      193 201—204
Gas multiplication 193, 201—204
Gas tube      57—59
Gas tube 57—59
Gas, ionization in counter chamber      193 197
Gas, ionization in counter chamber 193, 197
Gas, scattering      443 446—447
Gas, scattering 443, 446—447
Gaussian distribution      222 426—427
Gaussian distribution 222, 426—427
Gay, P.      71 72 120 143 292 293 295 455
Gay, P. 71, 72, 120, 143, 292, 293, 295, 455
Gayler, M.L.V.      125 332
Gayler, M.L.V. 125, 382
Geiger — Mtiller — counter uses flat-layer methods      155—9
Geiger — Mtiller — counter uses high-temporature methods      260—2
Geiger — Mtiller — counter uses identification of organic compounds      516
Geiger — Mtiller — counter uses low-angle methods      24—0
Geiger — Mueller-counter      189—190 192 195—201 202 204—207 216 see "Counter
Geiger — Mueller-counter uses, flat-layer methods      155—159
Geiger — Mueller-counter uses, high-temperature methods      260—262
Geiger — Mueller-counter uses, identification of organic compounds      516
Geiger — Mueller-counter uses, low-angle methods      240
Geiger — Mueller-counter, collimator alignment      284 286 288
Geiger — Mueller-counter, counting-loss corrections      224—225
Geiger — Mueller-counter, high stability      199—200
Geiger — Mueller-counter, high-tension source      212—213
Geiger — Mueller-counter, pulse formation      193 195
Geiger — Muller — cоunter      189—90 192 195—201 202 204—7 216
Geiger — Muller — cоunter, collimator alignment      284 286 288
Geiger — Muller — cоunter, counting-loss corrections      224—5
Geiger — Muller — cоunter, high stability      199—200
Geiger — Muller — cоunter, high-tension source      212—13
Geiger — Muller — cоunter, pulse formation      193 195 Counters Counter
Geiger — Muller-counter uses flat-layer methods 155—159
Geiger — Muller-counter uses high-temperature methods 260—262
Geiger — Muller-counter uses identification of organic compounds 516
Geiger — Muller-counter uses low-angle methods 240
Geiger — Muller-cоunter see also “Counters, Counter diffractometers”, 189—190, 192, 195—201, 202, 204—207, 216
Geiger — Muller-cоunter, collimator alignment 284, 286, 288
Geiger — Muller-cоunter, counting-loss corrections 224—225
Geiger — Muller-cоunter, high stability 199—200
Geiger — Muller-cоunter, high-tension source 212—213
Geiger — Muller-cоunter, pulse formation 193, 195
Gelatin      620
Gelatin 620
Gelatin, processing of films      634
Gelatin, processing of films 634
General form {hkl}      34
General form {hkl} 34
General positions of atoms      33
General positions of atoms 33
Geometric line breadth      409 423 see
Geometric line breadth see also “Breadth of powder line”, 409, 423
Geometric line breadth, back-reflexion camera      388—390
Geometric line breadth, back-reflexion camera 388—90
Geometric line breadth, correction for      422—428
Geometric line breadth, correction for 422—428
Geometric line breadth, cylindrical-focusing camera      384—386
Geometric line breadth, cylindrical-focusing camera 384—386
Geometric line breadth, Debye — Scherrer camera      89 94—101
Geometric line breadth, Debye — Scherrer camera 89, 94—101
Geometric line breadth, fiat-layer method      149—50 152—3 Breadth
Geometric line breadth, fiat-layer method 149—150, 152—153
Geometric line breadth, flat-layer method      149—150 152—153
Getting, I.A.      197
Getting, I.A. 197
Gifkins, R.C.      460
Gifkins, R.C. 460
Gillam, E.      211 231 254
Gillam, E. 211, 231, 254
Gillespie, A.B.      204
Gillespie, A.B. 204
Gingrich, N.S.      408 443 445 451
Gingrich, N.S. 408, 443, 445, 451
Glancing-angle methods, preferred orientation in block      303—305
Glancing-angle methods, preferred orientation in block 303—305
Glick, M.L.      618
Glick, M.L. 618
Glide      33
Glide 33
Glide, mechanism of plastic deformation      603
Glide, mechanism of plastic deformation 603
Glide, mechanism of plastic deformation*      603
Glocker, R.      300 305 456 623
Glocker, R. 300, 305, 456, 623

Gnomonic projection      37 41—42
Gnomonic projection 37, 41—42
Gnomonic projection, use with Laue method      48
Gnomonic projection, use with Laue method 48
Go, Y.      312
Go, Y. 312
Gockler, G.      246
Gockler, G. 246
Goetz, A.      243 263 265
Goetz, A. 243, 263, 265
Gold-copper alloys      437 594—595
Gold-copper alloys 437, 591—595
Goldschmidt, H.J.      172 242—264 454 461 558—573 582 588
Goldschmidt, H.J. 172, 242—264, 454, 461, 558—573, 582, 588
Goldztaub, S.      69
Goldztaub, S. 69
Goniometry      42
Goniometry 42
Goniometry identification      325
Goniometry identification 325
Goniometry, identification      325
Gordon, P.      248 250 263
Gordon, P. 248, 250, 263
Gordon, R.L.      167 211
Gordon, R.L. 167, 211
Goss, N.P.      246 255 257
Goss, N.P. 246, 255, 257
Gough, H.J.      460
Gough, H.J. 460
Gouy, M.      135 136
Gouy, M. 135, 136
Grain size      see "Crystallite size"
Grain size see “Crystallite size”
Graininess of X-ray film      620 628
Graininess of X-ray film 620, 628
Graphical methods of indexing photographs      346—349 353—354 373—375
Graphical methods of indexing photographs 346—349, 353—354, 373—375
graphite      254 263 417 466 615—616
Graphite 254, 263, 417, 466, 615—616
Green, H.S.      443
Green, H.S. 443
Greene, K.T.      567 572
Greene, K.T. 567, 572
Greenough, G.B.      391 392 460 601—610
Greenough, G.B. 391, 392, 460, 601—610
Greenwood, G.      305
Greenwood, G. 305
Gregory, C.H.      80
Gregory, C.H. 80
Grenall, A.      562 563
Grenall, A. 562, 563
Grenville-Wells, H.J.      137
Grenville-Wells, H.J. 137
Grinding rod specimen      113—114 298—299
Grinding rod specimen 113—114, 298—299
Ground curved-crystal monochromators      129—131
Ground curved-crystal monochromators 129—131
Grundfest, H.      283
Grundfest, H. 283
Gruner, J.W.      560
Gruner, J.W. 560
Guest, P.G.      113
Guest, P.G. 113
Guinier, A.      60 129 130 131 133 134 137 138 236 237 239 296 404 448 449 452 453 595
Guinier, A. 60, 129, 130, 131, 133, 134, 137, 138, 236, 237, 239, 296, 404, 448, 449, 452, 453, 595
Gum tragacanth      114
Gum tragacanth 114
Gundermann, J.      538
Gundermann, J. 538
Gurry, R.W.      283
Gurry, R.W. 283
Guy, A.G.      139
Guy, A.G. 139
Gypsum, monochromator use      137—141
Gypsum, monochromator use 137—141
Hadding, A.      59
Hadding, A. 59
Hagg, G.      124 125 371 597
Hagg, G. 124, 125, 371, 597
Halation of film      98
Halation of film 98
Hale, K.F.      214
Hale, K.F. 214
Half-height width of $K\alpha$ beam      207 227 421 653—654
Half-height width of $K_\alpha$ beam      207 227 421 653—4
Half-height width of $K_\alpha$ beam 207, 227, 421, 653—654
Hall, F.P.      558
Hall, F.P. 558
Hall, W.H.      210 218 224 227 419 423 428 429
Hall, W.H. 210, 218, 224, 227, 419, 423, 428, 429
Halogen quenching      195—200 202 213
Halogen quenching 195—200, 202, 213
Halsall, J.R.      462
Halsall, J.R. 462
Hamacher, E.A.      158 214
Hamacher, E.A. 158, 214
Hamos, L.V.      136
Hamos, L.V. 136
Hanawalt groups      333 504
Hanawalt groups 333, 504
Hanawalt, J.D.      229 331 515
Hanawalt, J.D. 229, 331, 515
Hanby, W.E.      491 534 552 553 555 556
Hanby, W.E. 491, 534, 552, 553, 555, 556
Happey, F.      481—496 533—557
Happey, F. 481—496, 533—557
Harang, L.      242
Harang, L. 242
Harcourt, A.      515
Harcourt, A. 515
Harcourt, G.A.      333
Harcourt, G.A. 333
Harding, S.W.      214
Harding, S.W. 214
Harding, T.T.      273
Harding, T.T. 273
Hargreaves, A.      298—322 469
Hargreaves, A. 298—322, 469
Hargreaves, C.M.      211
Hargreaves, C.M. 211
Hargreaves, M.E.      596 597
Hargreaves, M.E. 596, 597
Harker, D.      175 231 317 318 319
Harker, D. 175, 231, 317, 318, 319
Harper, G.I.      98
Harper, G.I. 98
Harris, R.L.      115
Harris, R.L. 115
Hartree, D.R.      434
Hartree, D.R. 434
Hartshorne, N.H.      325 358
Hartshorne, N.H. 325, 358
Hauk, V.      391
Hauk, V. 391
Haul, R.A.W.      228 427
Haul, R.A.W. 228, 427
Hauth, W.A.      560
Hauth, W.A. 560
Haworth, F.E.      129 130 131 138 142 312
Haworth, F.E. 129, 130, 131, 138, 142, 312
Haworth, W.N.      533
Haworth, W.N. 533
Hay, R.H.      166 310
Hay, R.H. 166, 310
Head, A.K.      460
Head, A.K. 460
Heal, H.T.      231 260 261 343
Heal, H.T. 231, 260, 261, 343
Hearmon, R.F.S.      608
Hearmon, R.F.S. 608

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