Fatigue crack closure over the range of stress ratios from −1 to 0.8 down to stress intensity threshold level in HT80 steel and SUS304 stainless steel A. OhtaM. KosugeE. Sasaki OriginalPaper Pages: 251 - 264
The effects of a strain-rate-dependent Young's modulus upon the stress and strain fields around a running crack tip R. Schirrer OriginalPaper Pages: 265 - 279
Propagation of a flexure crack: experiment and analysis Y. M. TsaiY. T. Chen OriginalPaper Pages: 281 - 291
A method for predicting crack growth in nonhomogeneous viscoelastic media R. A. Schapery OriginalPaper Pages: 293 - 309
A comparison of finite element solutions for an elastic-plastic crack problem W. K. WilsonJ. R. Osias OriginalPaper Pages: R95 - R108
A simple formula for the stress intensity factors of cracks in side notches H. Å. Jergéus OriginalPaper Pages: R113 - R116
On the solution of the three-dimensional problem of a plane crack of arbitrary shape P. S. TheocarisJ. G. Kazantzakis BriefCommunication Pages: R117 - R119
A new approach to the three-dimensional crack growth problem Roger LabourdetteJacques Pellas OriginalPaper Pages: R121 - R124
Plane strain crack growth in a ductile material, with particular reference to A533B pressure vessel steel E. Smith OriginalPaper Pages: R125 - R128
Effects of compressive-compressive loads on spectrum fatigue crack growth T. M. HsuW. M. McGee OriginalPaper Pages: R129 - R133
Optimal structural design using brittle materials C. V. S. Kameswara Rao BriefCommunication Pages: R135 - R136
Discussion: “Prediction of threshold stress intensity for fatigue crack growth using a dislocation model,” by K. Sadananda and P. Shahinian A. T. Yokobori Jr. BriefCommunication Pages: R137 - R139