Page 519 - Biaxial Multiaxial Fatigue and Fracture
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KEYWORD INDEX
Additional hardening, 423 Fatigue damage evaluation, 463
AIS1 316 L (N), 441 Fatigue damage parameter, 203
Aluminium, 303 Fatigue life, 43, 303
Aluminum alloy, 483 Fatigue life prediction, 463
Anisotropy, 321 Fatigue limit, 105, 147
Anticlastic bending, 483 Fatigue limit ratio, 285
Axial loading, 165 Fatigue thresholds, 243
Banded structure, 285 Fillet welds, 23
BEASY, 341 Fracture plane, 183
Biaxial fatigue, 183 Fracture, 441
Biaxial fatigue loadings, 83
Biaxial loading, 401 Geometrical aspects, 483
Biaxial lowcycle fatigue, 63 Goodman, 105
Block loading history, 203 Grains, 321
Brass, 243
Hot spot stress approach, 23
Carbon steel, 285
Cast irons, 243 Inconel 718 alloy, 383
Computational durability assessment, 463 Interference free crack growth, 123
Computing methods, 3 Isotropic material, 285
Constitutive modelling, 401
Crack growth, 441
Crack growth rate, 63
Cracking behaviour, 83 Life prediction, 423
Critical plane, 105,203,223.483 Life time, 183
Cumulative fatigue, 165 Loading frequency ratio, 203
Cyclic plasticity, 401 Load ratio effects, 361
Load spectrum, 341
Damage cumulation, 43 Local approach, 43
Damage model, 423 Local stress approach, 23
Design stress, 3 Low-cycle fatigue, 401,423
Diecasting, 303
DualBEM, 341
Duplex stainless steel, 401 Manufacturing defects, 303
Meanstrain, 383
Elasticity, 321 Microcrack, 63,441
Elastic-plastic strains at notches, 265 Microstructure, 361
Energy criterion, 183 MSD, 341
Environment, 361 Multiaxial, 165,441
Qui-biaxial stress, 105 Multiaxial criteria, 147
Experimental study, 401 Multiaxial cyclic loading, 265
Extra-hardening, 401 Multiaxial fatigue, 3, 23, 123,463
Multiaxial fatigue criteria, 383
Fatigue, 321 Multiaxial fatigue life prediction, 83
Fatigue analysis, 223 Multiaxial loading, 43, 147,243,423
Fatigue crack growth, 361 Multiaxial loads, 223

