Achievement of High Fatigue Resistance in Metals and Alloys: A Symposium Presented at the Seventy-second Annual Meeting, American Society for Testing and Materials, Atlantic City, N.J., 22-27 June, 1969 |
Contents
Introduction | 1 |
Crack Initiation at Stress Concentrations as Influenced by Prior Local Plas | 37 |
The Deformation and Fracture of a Ductile Metal Under Superimposed | 53 |
Copyright | |
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Achievement aging alloys aluminum alloys American Society amplitude annealing appears applied behavior boundaries cause coating compressive compressive stress concentration crack growth crack initiation crack propagation curves cycles cyclic cyclic strain decrease deformation depend determined developed diameter discussed dislocation ductility effect elastic Engineers example factor failure fatigue crack fatigue resistance fatigue strength fracture given grain grain boundaries hardening hardness heat hole important improvement increase indicated influence Journal levels limit lives loading lower material maximum mean mechanical Metallurgical Metals monotonic notched notched specimens observed occurs oxide peening percent plastic strain possible present prior loading produce properties range Report Research residual stress reversed shown in Fig shows slip softening stable Stage steel strain hardening stress coining stress-strain structure surface Table temperature tempering tensile tension tion Transactions treatments TYPE values yield