Role of Fracture Mechanics in Modern Technology: Proceedings of the International Conference on the Role of Fracture Mechanics in Modern Technology, Fukuoka, Japan, 2-6 June, 1986George C. Sih, Hironobu Nisitani, Tomoo Ishihara |
Contents
Role of fracture mechanics in modern technology | 3 |
Linear notch mechanics as an extension of linear fracture mechanics | 25 |
Advanced experimental mechanics and material defects | 39 |
Copyright | |
54 other sections not shown
Other editions - View all
Common terms and phrases
amplitude analysis applied approach behavior calculated components composite considered constant crack growth rate crack initiation crack length crack propagation crack tip creep curve cycles cyclic da/dN damage defects deformation density depends depth determined developed direction displacement distribution dynamic effect elastic element energy engineering equation evaluated experimental experiments failure fatigue crack growth force fracture mechanics frequency function given grain boundary increase influence initiation integral interface Japan limit linear load material maximum means measured method mode notch observed obtained occur opening parameters plane plastic plate prediction present problem procedure range ratio region relation residual stress respectively response shown in Figure shows solution specimen steel strain strength stress fields stress intensity factor structure surface Table technique temperature tensile theory thickness tion void yield zone