Fracture and Fatigue: Elasto-plasticity, Thin Sheet, and Micromechanisms Problems : Proceedings of the Third Colloquium on Fracture, London, 8-10 September 1980J. C. Radon |
Contents
ThreeDimensional ElasticPlastic Finite Element | 8 |
A Comparison of Different Methods for Determination | 79 |
Determining the Defect Tolerance of Structures Failing | 97 |
Copyright | |
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Common terms and phrases
alloy analysis appears applied assumed ASTM behaviour calculated cleavage fracture compared comparison compliance computed considered constant corresponding crack extension crack growth crack length crack tip critical curve cycles cyclic decrease defect deformation dependent determined discussed displacement ductile effect elastic elastic-plastic element energy equation evaluated experimental experiments failure fatigue crack Figure fracture mechanics fracture toughness function geometry given increase initiation instability J-integral limit linear lower material maximum load mean measured metals method mode notch numerical observed obtained occurs opening parameter plane plane strain plastic zone plate plotted point bend potential predicted present problem R-curve range ratio region relation resistance sheet shown shows specimen stable crack steel strain strength stress intensity factor structure surface Table temperature tensile tension thickness weld width yield