Fatigue of MaterialsWritten by a leading researcher in the field, this revised and updated second edition of a highly successful book provides an authoritative, comprehensive and unified treatment of the mechanics and micromechanisms of fatigue in metals, non-metals and composites. The author discusses the principles of cyclic deformation, crack initiation and crack growth by fatigue, covering both microscopic and continuum aspects. The book begins with discussions of cyclic deformation and fatigue crack initiation in monocrystalline and polycrystalline ductile alloys as well as in brittle and semi-/non-crystalline solids. Total life and damage-tolerant approaches are then introduced in metals, non-metals and composites followed by more advanced topics. The book includes an extensive bibliography and a problem set for each chapter, together with worked-out example problems and case studies. This will be an important reference for anyone studying fracture and fatigue in materials science and engineering, mechanical, civil, nuclear and aerospace engineering, and biomechanics. |
Contents
III | 1 |
IV | 8 |
V | 11 |
VI | 12 |
VII | 13 |
VIII | 14 |
X | 15 |
XI | 17 |
CLXXXIX | 308 |
CXC | 309 |
CXCI | 312 |
CXCII | 314 |
CXCIV | 315 |
CXCV | 316 |
CXCVI | 318 |
CXCVII | 320 |
XII | 18 |
XIII | 20 |
XIV | 21 |
XV | 22 |
XVI | 26 |
XVII | 28 |
XVIII | 29 |
XIX | 30 |
XX | 33 |
XXI | 37 |
XXII | 39 |
XXIII | 40 |
XXV | 45 |
XXVII | 47 |
XXVIII | 49 |
XXIX | 52 |
XXXI | 53 |
XXXII | 57 |
XXXIII | 58 |
XXXIV | 60 |
XXXVI | 61 |
XXXVIII | 62 |
XL | 63 |
XLII | 65 |
XLIII | 68 |
XLIV | 69 |
XLV | 71 |
XLVI | 72 |
XLVII | 74 |
XLVIII | 78 |
XLIX | 79 |
L | 80 |
LI | 82 |
LII | 83 |
LIV | 86 |
LV | 87 |
LVI | 89 |
LVII | 91 |
LIX | 95 |
LX | 97 |
LXII | 98 |
LXIII | 99 |
LXIV | 101 |
LXV | 102 |
LXVI | 104 |
LXVII | 106 |
LXVIII | 110 |
LXIX | 112 |
LXX | 113 |
LXXI | 115 |
LXXIII | 117 |
LXXIV | 119 |
LXXV | 120 |
LXXVI | 121 |
LXXVII | 122 |
LXXVIII | 125 |
LXXIX | 126 |
LXXX | 127 |
LXXXI | 130 |
LXXXIV | 131 |
LXXXV | 132 |
LXXXVI | 135 |
LXXXVII | 139 |
LXXXVIII | 141 |
LXXXIX | 143 |
XC | 144 |
XCI | 145 |
XCII | 146 |
XCIII | 147 |
XCIV | 150 |
XCV | 153 |
XCVI | 154 |
XCVII | 155 |
XCVIII | 156 |
XCIX | 160 |
C | 163 |
CII | 164 |
CIII | 165 |
CIV | 167 |
CVI | 168 |
CVII | 173 |
CVIII | 174 |
CIX | 177 |
CX | 178 |
CXI | 180 |
CXII | 182 |
CXIII | 183 |
CXIV | 185 |
CXV | 189 |
CXVI | 194 |
CXVII | 195 |
CXVIII | 198 |
CXX | 199 |
CXXI | 201 |
CXXII | 203 |
CXXIII | 205 |
CXXV | 207 |
CXXVI | 208 |
CXXVII | 209 |
CXXVIII | 211 |
CXXIX | 215 |
CXXX | 217 |
CXXXII | 219 |
CXXXIII | 222 |
CXXXIV | 225 |
CXXXV | 226 |
CXXXVI | 229 |
CXXXVII | 233 |
CXXXVIII | 234 |
CXXXIX | 235 |
CXL | 236 |
CXLI | 237 |
CXLII | 238 |
CXLIII | 240 |
CXLIV | 241 |
CXLV | 242 |
CXLVII | 244 |
CXLIX | 245 |
CL | 246 |
CLI | 248 |
CLII | 252 |
CLIII | 254 |
CLV | 255 |
CLVI | 258 |
CLVII | 260 |
CLVIII | 261 |
CLIX | 263 |
CLX | 266 |
CLXII | 267 |
CLXIII | 269 |
CLXIV | 272 |
CLXV | 274 |
CLXVI | 277 |
CLXVIII | 279 |
CLXX | 281 |
CLXXI | 284 |
CLXXIII | 285 |
CLXXIV | 291 |
CLXXV | 292 |
CLXXVII | 293 |
CLXXVIII | 294 |
CLXXIX | 296 |
CLXXX | 298 |
CLXXXI | 299 |
CLXXXII | 300 |
CLXXXIV | 303 |
CLXXXVI | 304 |
CLXXXVII | 305 |
CLXXXVIII | 306 |
CXCVIII | 322 |
CXCIX | 323 |
CC | 324 |
CCI | 327 |
CCII | 328 |
CCIII | 330 |
CCIV | 331 |
CCVI | 333 |
CCVII | 336 |
CCVIII | 337 |
CCIX | 339 |
CCX | 341 |
CCXI | 342 |
CCXII | 343 |
CCXIII | 347 |
CCXIV | 348 |
CCXV | 350 |
CCXVI | 353 |
CCXVII | 354 |
CCXVIII | 360 |
CCXIX | 364 |
CCXX | 365 |
CCXXI | 366 |
CCXXII | 368 |
CCXXIII | 369 |
CCXXIV | 370 |
CCXXV | 374 |
CCXXVI | 375 |
CCXXVII | 379 |
CCXXIX | 380 |
CCXXX | 381 |
CCXXXI | 382 |
CCXXXII | 384 |
CCXXXIII | 385 |
CCXXXIV | 388 |
CCXXXV | 389 |
CCXXXVI | 392 |
CCXXXVII | 395 |
CCXXXVIII | 398 |
CCXXXIX | 399 |
CCXL | 402 |
CCXLI | 404 |
CCXLIII | 407 |
CCXLIV | 409 |
CCXLV | 413 |
CCXLVI | 415 |
CCXLVII | 416 |
CCXLVIII | 418 |
CCXLIX | 420 |
CCL | 422 |
CCLI | 426 |
CCLII | 429 |
CCLIII | 431 |
CCLVI | 435 |
CCLVII | 436 |
CCLVIII | 438 |
CCLIX | 439 |
CCLX | 440 |
CCLXI | 441 |
CCLXII | 442 |
CCLXIII | 443 |
CCLXIV | 444 |
CCLXV | 445 |
CCLXVI | 447 |
CCLXVII | 448 |
CCLXVIII | 449 |
CCLXIX | 453 |
CCLXXI | 458 |
CCLXXIII | 459 |
CCLXXIV | 462 |
CCLXXV | 465 |
CCLXXVI | 470 |
CCLXXVIII | 477 |
CCLXXIX | 479 |
CCLXXXI | 480 |
CCLXXXIII | 484 |
CCLXXXIV | 487 |
CCLXXXV | 488 |
CCLXXXVI | 490 |
CCLXXXVIII | 491 |
CCLXXXIX | 494 |
CCXC | 495 |
CCXCI | 497 |
CCXCII | 498 |
CCXCIII | 499 |
CCXCIV | 500 |
CCXCV | 501 |
CCXCVI | 502 |
CCXCVII | 505 |
CCXCVIII | 506 |
CCXCIX | 509 |
CCC | 512 |
CCCI | 513 |
CCCII | 514 |
CCCIII | 515 |
CCCIV | 516 |
CCCV | 517 |
CCCVII | 518 |
CCCVIII | 520 |
CCCIX | 523 |
CCCXI | 524 |
CCCXII | 527 |
CCCXIII | 528 |
CCCXIV | 529 |
CCCXV | 530 |
CCCXVI | 531 |
CCCXVII | 535 |
CCCXVIII | 537 |
CCCXX | 538 |
CCCXXI | 539 |
CCCXXII | 541 |
CCCXXIII | 542 |
CCCXXIV | 544 |
CCCXXV | 545 |
CCCXXVI | 546 |
CCCXXVII | 548 |
CCCXXVIII | 550 |
CCCXXIX | 553 |
CCCXXX | 555 |
CCCXXXI | 556 |
CCCXXXII | 558 |
CCCXXXIII | 560 |
CCCXXXIV | 562 |
CCCXXXV | 564 |
CCCXXXVI | 565 |
CCCXXXVII | 566 |
CCCXXXVIII | 568 |
CCCXL | 569 |
CCCXLI | 571 |
CCCXLII | 573 |
CCCXLIII | 575 |
CCCXLIV | 577 |
CCCXLV | 579 |
CCCXLVI | 580 |
CCCXLVII | 582 |
CCCXLVIII | 583 |
CCCXLIX | 584 |
CCCL | 588 |
CCCLI | 592 |
CCCLII | 595 |
CCCLIII | 597 |
CCCLIV | 598 |
CCCLV | 602 |
CCCLVI | 603 |
CCCLVII | 608 |
CCCLVIII | 653 |
663 | |
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Common terms and phrases
aluminum alloy behavior brittle solids Burgers vector ceramics Chapter characterization components compressive stress crack advance crack closure crack faces crack growth rates crack length crack nucleation crack propagation crack tip craze creep curve cyclic compression cyclic deformation cyclic loading da/dN damage ductile effects Engineering experimental far-field fatigue crack growth fatigue crack initiation fatigue cycle fatigue fracture flaws fracture mechanics fracture surface grain boundary hardening intensity factor range interface K₁ Kmax linear elastic load ratio loading conditions matrix maximum mean stress metals microcracking microstructural mode monotonic MPa/m multiaxial near-threshold near-tip normal occurs opening displacement overload plane strain plastic strain plastic zone polymers regime residual stresses reversed schematically Section shear strain shear stress shown in Fig single crystals slip bands specimen steel strain amplitude stress amplitude stress concentrations stress intensity factor stress-strain stress-strain curve striations structure Suresh temperature tensile stress thermal threshold yield strength