Basic issues in the mechanics of high cycle metal fatigue David L. McDowell OriginalPaper 06 April 2004 Pages: 103 - 145
High cycle fatigue in aircraft gas turbines—an industry perspective B. A. Cowles OriginalPaper 06 April 2004 Pages: 147 - 163
Recent advances in fatigue crack growth modeling Huseyin SehitogluK. GallA. M. GarcĂa OriginalPaper 06 April 2004 Pages: 165 - 192
Application of a closure model to predict crack growth in three engine disc materials J. C. Newman Jr. OriginalPaper 06 April 2004 Pages: 193 - 218
On the use of the Goodman diagram for high cycle fatigue design T. NicholasJ. R. Zuiker OriginalPaper 06 April 2004 Pages: 219 - 235
An assessment of the role of near-threshold crack growth in high-cycle-fatigue life prediction of aerospace titanium alloys under turbine engine spectra J. M. LarsenB. D. WorthF. K. Haake OriginalPaper 06 April 2004 Pages: 237 - 255
The J integral analysis of an interface main crack interacting with near tip subinterface microcracks Li-Guo ZhaoYi-Heng Chen OriginalPaper 06 April 2004 Pages: R25 - R30
Non singular terms in stresses near the tip of an arbitrarily loaded edge crack A. N. Galybin OriginalPaper 06 April 2004 Pages: R31 - R36
Dynamic analysis of mode III cracks in rectangular sheets P. H. WenM. H. AliabadiD. P. Rooke OriginalPaper 06 April 2004 Pages: R37 - R41
The dipole asymptotic solution for two parallel periodical arrays of cracks R. Freij-Ayoub OriginalPaper 06 April 2004 Pages: R43 - R48
Fracture of SiC tubes under combined tension/torsion Wang FenghuiLu MingxuPan Yougjun OriginalPaper 06 April 2004 Pages: R49 - R54
A high precision photoelasticity procedure for determination of mode I stress intensity factor KI Chen Feng OriginalPaper 06 April 2004 Pages: R55 - R58