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Materials Handbook for Hybrid Electronics : Electronic Materials & Devices Library - J.A. King

Materials Handbook for Hybrid Electronics

Electronic Materials & Devices Library

By: J.A. King (Editor)

Paperback Published: 19th June 1988
ISBN: 9780890063255
Number Of Pages: 632

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The result of a joint effort between representatives of private industry and academia, the publication is divided into sections on elements, alloys, insulators and compound semi-conductors. An index and bibliography are lacking. Numerous simple graphs and charts are provided, in fact most of the boo

Prefacep. xv
Acknowledgmentsp. xvii
Introductionp. 1
Unitsp. 1
Thermophysical Propertiesp. 2
Densityp. 2
Specific Heatp. 2
Thermal Conductivityp. 3
Thermal Expansion Coefficientp. 4
Elastic Constantsp. 5
Electrical Propertiesp. 7
Resistivityp. 7
Temperature Coefficient of Resistancep. 8
Dielectric Constant, Dielectric Strength, and Dissipation Factorp. 9
Band Gapp. 10
Mechanical Propertiesp. 10
Strengthp. 10
Hardnessp. 13
References for Introductionp. 14
Elementsp. 16
Aluminump. 17
Specific Heat vs. Temperaturep. 18
Thermal Conductivity vs. Temperaturep. 19
Expansion Coefficient vs. Temperaturep. 20
Electrical Resistivity vs. Temperaturep. 21
Young's Modulus vs. Temperaturep. 22
Poisson's Ratio vs. Temperaturep. 23
Yield Strength vs. Temperaturep. 24
Ultimate Strength vs. Temperaturep. 25
Elongation vs. Temperaturep. 26
Hardness vs. Temperaturep. 27
Chromiump. 28
Specific Heat vs. Temperaturep. 29
Thermal Conductivity vs. Temperaturep. 30
Expansion Coefficient vs. Temperaturep. 31
Electrical Resistivity vs. Temperaturep. 32
Young's Modulus vs. Temperaturep. 33
Poisson's Ratio vs. Temperaturep. 34
Yield Strength vs. Temperaturep. 35
Ultimate Strength vs. Temperaturep. 36
Elongation vs. Temperaturep. 37
Hardness vs. Temperaturep. 38
Copperp. 39
Specific Heat vs. Temperaturep. 40
Thermal Conductivity vs. Temperaturep. 41
Expansion Coefficient vs. Temperaturep. 42
Electrical Resistivity vs. Temperaturep. 43
Young's Modulus vs. Temperaturep. 44
Poisson's Ratio vs. Temperaturep. 45
Yield Strength vs. Temperaturep. 46
Ultimate Strength vs. Temperaturep. 47
Elongation vs. Temperaturep. 48
Hardness vs. Temperaturep. 49
Germaniump. 50
Specific Heat vs. Temperaturep. 51
Thermal Conductivity vs. Temperaturep. 52
Expansion Coefficient vs. Temperaturep. 53
Electrical Resistivity vs. Temperaturep. 54
Young's Modulus vs. Temperaturep. 55
Young's Modulus for Single Crystalp. 56
Poisson's Ratio vs. Temperaturep. 57
Yield Strength vs. Temperaturep. 58
Ultimate Strength vs. Temperaturep. 59
Elongation vs. Temperaturep. 60
Hardness vs. Temperaturep. 61
Goldp. 62
Specific Heat vs. Temperaturep. 63
Thermal Conductivity vs. Temperaturep. 64
Expansion Coefficient vs. Temperaturep. 65
Electrical Resistivity vs. Temperaturep. 66
Young's Modulus vs. Temperaturep. 67
Poisson's Ratio vs. Temperaturep. 68
Yield Strength vs. Temperaturep. 69
Ultimate Strength vs. Temperaturep. 70
Elongation vs. Temperaturep. 71
Hardness vs. Temperaturep. 72
Ironp. 73
Specific Heat vs. Temperaturep. 74
Thermal Conductivity vs. Temperaturep. 75
Expansion Coefficient vs. Temperaturep. 76
Electrical Resistivity vs. Temperaturep. 77
Young's Modulus vs. Temperaturep. 78
Poisson's Ratio vs. Temperaturep. 79
Yield Strength vs. Temperaturep. 80
Ultimate Strength vs. Temperaturep. 81
Elongation vs. Temperaturep. 82
Hardness vs. Temperaturep. 83
Molybdenump. 84
Specific Heat vs. Temperaturep. 85
Thermal Conductivity vs. Temperaturep. 86
Expansion Coefficient vs. Temperaturep. 87
Electrical Resistivity vs. Temperaturep. 88
Young's Modulus vs. Temperaturep. 89
Poisson's Ratio vs. Temperaturep. 90
Yield Strength vs. Temperaturep. 91
Ultimate Strength vs. Temperaturep. 92
Elongation vs. Temperaturep. 93
Hardness vs. Temperaturep. 94
Nickelp. 95
Specific Heat vs. Temperaturep. 96
Thermal Conductivity vs. Temperaturep. 97
Expansion Coefficient vs. Temperaturep. 98
Electrical Resistivity vs. Temperaturep. 99
Young's Modulus vs. Temperaturep. 100
Poisson's Ratio vs. Temperaturep. 101
Yield Strength vs. Temperaturep. 102
Ultimate Strength vs. Temperaturep. 103
Elongation vs. Temperaturep. 104
Hardness vs. Temperaturep. 105
Siliconp. 106
Specific Heat vs. Temperaturep. 107
Thermal Conductivity vs. Temperaturep. 108
Expansion Coefficient vs. Temperaturep. 109
Electrical Resistivity vs. Temperaturep. 110
Young's Modulus vs. Temperaturep. 113
Young's Modulus for Single Crystalp. 114
Poisson's Ratio vs. Temperaturep. 115
Yield Strength vs. Temperaturep. 116
Ultimate Strength vs. Temperaturep. 117
Elongation vs. Temperaturep. 118
Hardness vs. Temperaturep. 119
Silverp. 120
Specific Heat vs. Temperaturep. 121
Thermal Conductivity vs. Temperaturep. 122
Expansion Coefficient vs. Temperaturep. 123
Electrical Resistivity vs. Temperaturep. 124
Young's Modulus vs. Temperaturep. 125
Poisson's Ratio vs. Temperaturep. 126
Yield Strength vs. Temperaturep. 127
Ultimate Strength vs. Temperaturep. 128
Elongation vs. Temperaturep. 129
Hardness vs. Temperaturep. 130
Tantalump. 131
Specific Heat vs. Temperaturep. 132
Thermal Conductivity vs. Temperaturep. 133
Expansion Coefficient vs. Temperaturep. 134
Electrical Resistivity vs. Temperaturep. 135
Young's Modulus vs. Temperaturep. 136
Poisson's Ratio vs. Temperaturep. 137
Yield Strength vs. Temperaturep. 138
Ultimate Strength vs. Temperaturep. 139
Elongation vs. Temperaturep. 140
Hardness vs. Temperaturep. 141
Tinp. 142
Specific Heat vs. Temperature for White Tinp. 143
Specific Heat vs. Temperature for Grey Tinp. 144
Thermal Conductivity vs. Temperaturep. 145
Expansion Coefficient vs. Temperaturep. 146
Electrical Resistivity vs. Temperaturep. 147
Young's Modulus vs. Temperaturep. 148
Poisson's Ratio vs. Temperaturep. 149
Yield Strength vs. Temperaturep. 150
Ultimate Strength vs. Temperaturep. 151
Elongation vs. Temperaturep. 152
Hardness vs. Temperaturep. 153
Tungstenp. 154
Specific Heat vs. Temperaturep. 155
Thermal Conductivity vs. Temperaturep. 156
Expansion Coefficient vs. Temperaturep. 157
Electrical Resistivity vs. Temperaturep. 158
Young's Modulus vs. Temperaturep. 159
Poisson's Ratio vs. Temperaturep. 160
Yield Strength vs. Temperature (Recryst.)p. 161
Yield Strength vs. Temperature (Wrought)p. 162
Ultimate Tensile Strength vs. Temperature (Wrought)p. 162
Ultimate Strength vs. Temperature (Recryst.)p. 163
Elongation vs. Temperature (Recryst.)p. 164
Elongation vs. Temperature (Wrought)p. 165
Hardness vs. Temperaturep. 166
Typical Strength Valuesp. 167
References for Elementsp. 168
Alloysp. 196
96.5Sn 3.5Agp. 197
Specific Heat vs. Temperaturep. 198
Thermal Conductivity vs. Temperaturep. 199
Expansion Coefficient vs. Temperaturep. 200
Electrical Resistivity vs. Temperaturep. 201
Young's Modulus vs. Temperaturep. 202
Poisson's Ratio vs. Temperaturep. 203
Yield Strength vs. Temperaturep. 204
Ultimate Strength vs. Temperaturep. 205
Shear Strengthp. 206
Elongation vs. Temperaturep. 207
Hardness vs. Temperaturep. 208
Sn-Ag Phase Diagramp. 209
95Sn 5Agp. 210
Specific Heat vs. Temperaturep. 211
Thermal Conductivity vs. Temperaturep. 212
Expansion Coefficient vs. Temperaturep. 213
Electrical Resistivity vs. Temperaturep. 214
Young's Modulus vs. Temperaturep. 215
Poisson's Ratio vs. Temperaturep. 216
Yield Strength vs. Temperaturep. 217
Ultimate Strength vs. Temperaturep. 218
Elongation vs. Temperaturep. 219
Hardness vs. Temperaturep. 220
88Au 12Gep. 221
Specific Heat vs. Temperaturep. 222
Thermal Conductivity vs. Temperaturep. 223
Expansion Coefficient vs. Temperaturep. 224
Electrical Resistivity vs. Temperaturep. 225
Young's Modulus vs. Temperaturep. 226
Poisson's Ratio vs. Temperaturep. 227
Yield Strength vs. Temperaturep. 228
Ultimate Strength vs. Temperaturep. 229
Elongation vs. Temperaturep. 230
Hardness vs. Temperaturep. 231
Au-Ge Phase Diagramp. 232
94Au 6Sip. 233
Specific Heat vs. Temperaturep. 234
Thermal Conductivity vs. Temperaturep. 235
Expansion Coefficient vs. Temperaturep. 236
Electrical Resistivity vs. Temperaturep. 237
Young's Modulus vs. Temperaturep. 238
Poisson's Ratio vs. Temperaturep. 239
Yield Strength vs. Temperaturep. 240
Ultimate Strength vs. Temperaturep. 241
Elongation vs. Temperaturep. 242
Hardness vs. Temperaturep. 243
Au-Si Phase Diagramp. 244
80 Au 20Snp. 245
Specific Heat vs. Temperaturep. 246
Thermal Conductivity vs. Temperaturep. 247
Expansion Coefficient vs. Temperaturep. 248
Electrical Resistivity vs. Temperaturep. 249
Young's Modulus vs. Temperaturep. 250
Poisson's Ratio vs. Temperaturep. 251
Yield Strength vs. Temperaturep. 252
Ultimate Strength vs. Temperaturep. 253
Elongation vs. Temperaturep. 254
Hardness vs. Temperaturep. 255
Au-Sn Phase Diagramp. 256
99.9Fe 0.1Cp. 257
Specific Heat vs. Temperaturep. 258
Thermal Conductivity vs. Temperaturep. 259
Expansion Coefficient vs. Temperaturep. 260
Electrical Resistivity vs. Temperaturep. 261
Young's Modulus vs. Temperaturep. 262
Poisson's Ratio vs. Temperaturep. 263
Yield Strength vs. Temperaturep. 264
Ultimate Strength vs. Temperaturep. 265
Elongation vs. Temperaturep. 266
Hardness vs. Temperaturep. 267
Fe-C Phase Diagramp. 268
55Cu 45Ni (Cupron)p. 269
Specific Heat vs. Temperaturep. 270
Thermal Conductivity vs. Temperaturep. 271
Expansion Coefficient vs. Temperaturep. 272
Electrical Resistivity vs. Temperaturep. 273
Young's Modulus vs. Temperaturep. 274
Poisson's Ratio vs. Temperaturep. 275
Yield Strength vs. Temperaturep. 276
Ultimate Strength vs. Temperaturep. 277
Elongation vs. Temperaturep. 278
Hardness vs. Temperaturep. 279
Cu-Ni Phase Diagramp. 280
80Ni 20Cr (Nichrome)p. 281
Specific Heat vs. Temperaturep. 282
Thermal Conductivity vs. Temperaturep. 283
Expansion Coefficient vs. Temperaturep. 284
Electrical Resistivity vs. Temperaturep. 285
Young's Modulus vs. Temperaturep. 286
Poisson's Ratio vs. Temperaturep. 287
Yield Strength vs. Temperaturep. 288
Ultimate Strength vs. Temperaturep. 290
Elongation vs. Temperaturep. 291
Hardness vs. Temperaturep. 292
Ni-Cr Phase Diagramp. 000
58Fe 42Ni (Alloy 42)p. 293
Specific Heat vs. Temperaturep. 294
Thermal Conductivity vs. Temperaturep. 295
Expansion Coefficient vs. Temperaturep. 296
Electrical Resistivity vs. Temperaturep. 297
Young's Modulus vs. Temperaturep. 298
Poisson's Ratio vs. Temperaturep. 299
Yield Strength vs. Temperaturep. 300
Ultimate Strength vs. Temperaturep. 301
Elongation vs. Temperaturep. 302
Hardness vs. Temperaturep. 303
Fe-Ni Phase Diagramp. 304
50Pb 50Inp. 305
Specific Heat vs. Temperaturep. 306
Thermal Conductivity vs. Temperaturep. 307
Expansion Coefficient vs. Temperaturep. 308
Electrical Resistivity vs. Temperaturep. 309
Young's Modulus vs. Temperaturep. 310
Poisson's Ratio vs. Temperaturep. 311
Yield Strength vs. Temperaturep. 312
Ultimate Strength vs. Temperaturep. 313
Elongation vs. Temperaturep. 314
Hardness vs. Temperaturep. 315
80Pb 20Inp. 316
Specific Heat vs. Temperaturep. 317
Thermal Conductivity vs. Temperaturep. 318
Expansion Coefficient vs. Temperaturep. 319
Electrical Resistivity vs. Temperaturep. 320
Young's Modulus vs. Temperaturep. 321
Poisson's Ratio vs. Temperaturep. 322
Yield Strength vs. Temperaturep. 323
Ultimate Strength vs. Temperaturep. 324
Elongation vs. Temperaturep. 325
Hardness vs. Temperaturep. 326
Pb-In Phase Diagramp. 327
89Ni 11Pp. 328
Specific Heat vs. Temperaturep. 329
Thermal Conductivity vs. Temperaturep. 330
Expansion Coefficient vs. Temperaturep. 331
Electrical Resistivity vs. Temperaturep. 332
Young's Modulus vs. Temperaturep. 333
Poisson's Ratio vs. Temperaturep. 334
Yield Strength vs. Temperaturep. 335
Ultimate Strength vs. Temperaturep. 336
Elongation vs. Temperaturep. 337
Hardness vs. Temperaturep. 338
Ni-P Phase Diagramp. 339
63Sn 37Pbp. 340
Specific Heat vs. Temperaturep. 341
Thermal Conductivity vs. Temperaturep. 342
Expansion Coefficient vs. Temperaturep. 343
Electrical Resistivity vs. Temperaturep. 344
Young's Modulus vs. Temperaturep. 345
Poisson's Ratio vs. Temperaturep. 346
Shear Strengthp. 347
Yield Strength vs. Temperaturep. 348
Ultimate Strength vs. Temperaturep. 349
Elongation vs. Temperaturep. 350
Hardness vs. Temperaturep. 351
Sn-Pb Phase Diagramp. 352
54Fe 29Ni 17Co (Kovar)p. 353
Specific Heat vs. Temperaturep. 354
Thermal Conductivity vs. Temperaturep. 355
Expansion Coefficient vs. Temperaturep. 356
Electrical Resistivity vs. Temperaturep. 357
Young's Modulus vs. Temperaturep. 358
Poisson's Ratio vs. Temperaturep. 359
Yield Strength vs. Temperaturep. 360
Ultimate Strength vs. Temperaturep. 361
Elongation vs. Temperaturep. 362
Hardness vs. Temperaturep. 363
Fe-Ni-Co Phase Diagramp. 364
88Pb 10Sn 2Agp. 365
Specific Heat vs. Temperaturep. 366
Thermal Conductivity vs. Temperaturep. 367
Expansion Coefficient vs. Temperaturep. 368
Electrical Resistivity vs. Temperaturep. 369
Young's Modulus vs. Temperaturep. 370
Poisson's Ratio vs. Temperaturep. 371
Yield Strength vs. Temperaturep. 372
Ultimate Strength vs. Temperaturep. 373
Elongation vs. Temperaturep. 374
Hardness vs. Temperaturep. 375
Pb-Ag-Sn Phase Diagramp. 376
92.5Pb 5Sn 2.5Agp. 377
Specific Heat vs. Temperaturep. 378
Thermal Conductivity vs. Temperaturep. 379
Expansion Coefficient vs. Temperaturep. 380
Electrical Resistivity vs. Temperaturep. 381
Young's Modulus vs. Temperaturep. 382
Poisson's Ratio vs. Temperaturep. 383
Yield Strength vs. Temperaturep. 384
Ultimate Strength vs. Temperaturep. 385
Elongation vs. Temperaturep. 386
Hardness vs. Temperaturep. 387
66Sn 36Pb 2Agp. 388
Specific Heat vs. Temperaturep. 389
Thermal Conductivity vs. Temperaturep. 390
Expansion Coefficient vs. Temperaturep. 391
Electrical Resistivity vs. Temperaturep. 392
Young's Modulus vs. Temperaturep. 393
Poisson's Ratio vs. Temperaturep. 394
Yield Strength vs. Temperaturep. 395
Ultimate Strength vs. Temperaturep. 396
Elongation vs. Temperaturep. 397
Hardness vs. Temperaturep. 398
Al-Au Phase Diagramp. 399
Au-Pb-Sn Phase Diagramp. 400
References for Alloysp. 401
Insulatorsp. 437
Ainp. 438
Specific Heat vs. Temperaturep. 439
Thermal Conductivity vs. Temperaturep. 440
Expansion Coefficient vs. Temperaturep. 441
Dielectric Constant vs. Temperaturep. 442
Dielectric Strength vs. Temperaturep. 443
Dissipation Factor vs. Temperaturep. 444
Young's Modulus vs. Temperaturep. 445
Poisson's Ratio vs. Temperaturep. 446
Compressive Strength vs. Temperaturep. 447
Ultimate Strength vs. Temperaturep. 448
Flexural Strength vs. Temperaturep. 449
Hardness vs. Temperaturep. 450
Al[subscript 2]O[subscript 3] (96% Ceramic)p. 451
Specific Heat vs. Temperaturep. 452
Thermal Conductivity vs. Temperaturep. 453
Expansion Coefficient vs. Temperaturep. 454
Dielectric Constant vs. Temperaturep. 455
Dielectric Strength vs. Temperaturep. 456
Dissipation Factor vs. Temperaturep. 457
Young's Modulus vs. Temperaturep. 458
Poisson's Ratio vs. Temperaturep. 459
Compressive Strength vs. Temperaturep. 460
Ultimate Strength vs. Temperaturep. 461
Flexural Strength vs. Temperaturep. 462
Hardness vs. Temperaturep. 463
Al[subscript 2]O[subscript 3] (99% Ceramic)p. 464
Specific Heat vs. Temperaturep. 465
Thermal conductivity vs. Temperaturep. 466
Expansion Coefficient vs. Temperaturep. 467
Dielectric Constant vs. Temperaturep. 468
Dielectric Strength vs. Temperaturep. 469
Dissipation Factor vs. Temperaturep. 470
Young's Modulus vs. Temperaturep. 471
Poisson's Ratio vs. Temperaturep. 472
Compressive Strength vs. Temperaturep. 473
Ultimate Strength vs. Temperaturep. 474
Flexural Strength vs. Temperaturep. 475
Hardness vs. Temperaturep. 476
Al[subscript 2]O[subscript 3] (Sapphire)p. 477
Specific Heat vs. Temperaturep. 478
Thermal Conductivity vs. Temperaturep. 479
Expansion Coefficient vs. Temperaturep. 480
Dielectric Constant vs. Temperaturep. 481
Dielectric Strength vs. Temperaturep. 482
Dissipation Factor vs. Temperaturep. 483
Young's Modulus vs. Temperaturep. 484
Poisson's Ratio vs. Temperaturep. 485
Compressive Strength vs. Temperaturep. 486
Ultimate Strength vs. Temperaturep. 487
Flexural Strength vs. Temperaturep. 488
Hardness vs. Temperaturep. 489
BeOp. 490
Specific Heat vs. Temperaturep. 491
Thermal Conductivity vs. Temperaturep. 492
Expansion Coefficient vs. Temperaturep. 493
Dielectric Constant vs. Temperaturep. 494
Dielectric Strength vs. Temperaturep. 495
Dissipation Factor vs. Temperaturep. 496
Young's Modulus vs. Temperaturep. 497
Poisson's Ratio vs. Temperaturep. 498
Compressive Strength vs. Temperaturep. 499
Ultimate Strength vs. Temperaturep. 500
Flexural Strength vs. Temperaturep. 501
Hardness vs. Temperaturep. 502
Carbon (Diamond)p. 503
Specific Heat vs. Temperaturep. 504
Thermal Conductivity vs. Temperaturep. 505
Expansion Coefficient vs. Temperaturep. 506
Dielectric Constant vs. Temperaturep. 507
Dielectric Stregth vs. Temperaturep. 508
Dissipation Factor vs. Temperaturep. 509
Young's Modulus vs. Temperaturep. 510
Poisson's Ratio vs. Temperaturep. 511
Compressive Strength vs. Temperaturep. 512
Ultimate Strength vs. Temperaturep. 513
Flexural Strength vs. Temperaturep. 514
Hardness vs. Temperaturep. 515
SiO[subscript 2] (Fused Quartz)p. 516
Specific Heat vs. Temperaturep. 517
Thermal Conductivity vs. Temperaturep. 518
Expansion Coefficient vs. Temperaturep. 519
Dielectric Constant vs. Temperaturep. 520
Dielectric Strength vs. Temperaturep. 521
Dissipation Factor vs. Temperaturep. 522
Young's Modulus vs. Temperaturep. 523
Poisson's Ratio vs. Temperaturep. 524
Compressive Strength vs. Temperaturep. 525
Ultimate Strength vs. Temperaturep. 526
Flexural Strength vs. Temperaturep. 527
Hardness vs. Temperaturep. 528
SiO[subscript x] (Silicon Monoxide)p. 529
Specific Heat vs. Temperaturep. 531
Thermal Conductivity vs. Temperaturep. 532
Thermal Conductancep. 533
Expansion Coefficient vs. Temperaturep. 534
Dielectric Constant vs. Temperaturep. 535
Dielectric Constant vs. Deposition Ratep. 536
Percent Change in Capacitance vs. Temperaturep. 537
Dielectric Strength vs. Temperaturep. 538
Dissipation Factor vs. Temperaturep. 539
Reduced Young's Modulus vs. Temperaturep. 540
Poisson's Ratio vs. Temperaturep. 541
Yield Strength vs. Temperaturep. 542
Ultimate Strength vs. Temperaturep. 543
Elongation vs. Temperaturep. 544
Hardness vs. Temperaturep. 545
Hardness vs. Deposition Pressurep. 546
Ta[subscript 2]O[subscript 5]p. 547
Specific Heat vs. Temperaturep. 548
Thermal Conductivity vs. Temperaturep. 549
Expansion Coefficient vs. Temperaturep. 550
Dielectric Constant vs. Temperaturep. 551
Percent Change in Capacitance vs. Temperaturep. 552
Dielectric Strength vs. Temperaturep. 553
Dissipation Factor vs. Temperaturep. 554
Reduced Young's Modulus vs. Temperaturep. 555
Poisson's Ratio vs. Temperaturep. 556
Yield Strength vs. Temperaturep. 557
Ultimate Strength vs. Temperaturep. 558
Elongation vs. Temperaturep. 559
Hardness vs. Temperaturep. 560
References for Insulatorsp. 561
Compound Semiconductorsp. 578
GaAsp. 579
Specific Heat vs. Temperaturep. 580
Thermal Conductivity vs. Temperaturep. 581
Expansion Coefficient vs. Temperaturep. 582
Electrical Resistivity vs. Temperaturep. 583
Band Gap vs. Temperaturep. 584
SiCp. 585
Specific Heat vs. Temperaturep. 586
Thermal Conductivity vs. Temperaturep. 587
Expansion Coefficient vs. Temperaturep. 588
Electrical Resistivity vs. Temperaturep. 589
Band Gap vs. Temperaturep. 590
Ta[subscript 2]Np. 591
Specific Heat vs. Temperaturep. 592
Thermal Conductivity vs. Temperaturep. 593
Expansion Coefficient vs. Temperaturep. 594
Electrical Resistivity vs. Temperaturep. 595
Band Gap vs. Temperaturep. 596
CrSi[subscript 2]p. 597
Specific Heat vs. Temperaturep. 598
Thermal Conductivity vs. Temperaturep. 599
Expansion Coefficient vs. Temperaturep. 600
Electrical Resistivity vs. Temperaturep. 601
Band Gap vs. Temperaturep. 602
References for Compound Semiconductorsp. 603
Glossaryp. 610
Table of Contents provided by Syndetics. All Rights Reserved.

ISBN: 9780890063255
ISBN-10: 0890063257
Series: Electronic Materials & Devices Library
Audience: Professional
Format: Paperback
Language: English
Number Of Pages: 632
Published: 19th June 1988
Publisher: Artech House Publishers
Country of Publication: US
Dimensions (cm): 28.0 x 21.0  x 3.2
Weight (kg): 1.4