Fatigue and Microstructure: Papers Presented at the 1978 ASM Materials Science Seminar, 14-15, October, 1978, St. Louis, Missouri |
Contents
Fatigue in Machines and StructuresPower Generation | 1 |
Fatigue in Machines and StructuresAircraft | 29 |
Fatigue in Machines and StructuresGround Vehicles | 57 |
Copyright | |
17 other sections not shown
Common terms and phrases
acoustic aircraft aluminum alloys ASTM cavitation compression copper corrosion fatigue crack growth crack initiation crack nucleation crack propagation crack tip crack-growth rate cycles cyclic deformation cyclic stress cyclic stress-strain curve da/dN damage decrease dislocations ductility effect elastic Engineering environment environmental equation fatigue limit fatigue resistance fatigue-crack growth fatigue-crack initiation fracture grain boundaries growth rate hardening high-strength increase intergranular Laird loading martensite material mean stress Mech mechanism Metals microcracks microstructural monotonic notch nucleation observed occurs particles plane plastic deformation plastic strain plastic zone plastic-strain amplitude prediction Proc reduced region residual stress reversals to failure Schematic screw dislocations shear shearable precipitates shown in Fig shows slip bands specimens steel strain amplitude strain-life stress amplitude stress concentration stress intensity stress-intensity factor stress-strain curve structure surface temper temperature tensile Trans vacuum versus yield strength Δε