Ultrasonic Fatigue: Proceedings of the First International Conference on Fatigue and Corrosion Fatigue Up to Ultrasonic FrequenciesJoseph M. Wells |
Contents
Foreword | 1 |
Monitoring of High Power Ultrasonic Fatigue Systems | 15 |
Problems Arising with Fatigue Testing at Ultrasonic | 37 |
Copyright | |
33 other sections not shown
Common terms and phrases
alloys amplitude appears applied behavior calculated cause compared constant conventional copper corrosion fatigue crack growth rates curve cycles cyclic damage deformation dependent described determined dislocation distribution effect elastic environment environmental equation evaluation experimental experiments factor failure fatigue crack growth fatigue limit fatigue strength fatigue testing Figure fracture function given grain grain boundaries heat high frequency higher hydrogen increase indicated initiation internal loading low frequency lower machine material maximum mean measured mechanical metals NaCl notch observed obtained occur performed plastic possible present probability processes properties range ratio region resonance sample shown shown in Fig shows similar single slip solution specimen stainless steel steel strain amplitude strain rate strength stress amplitude stress intensity structure surface Table temperature tensile threshold transducer ultrasonic fatigue values various yield zone