Table of Contents
Articles
| Characterisation of crack tip fields under non-uniform fatigue loading | |
| D. Nowell, M.E. Kartal, P.F.P. de Matos | Pages 1-6 |
| Crack propagation mechanism and life prediction for very-highcycle fatigue of a structural steel in different environmental medias | |
| Guian Qian, Chengen Zhou, Youshi Hong | Pages 7-14 |
| Combining experimental and numerical analysis to estimate stress fields along the surface crack front | |
| A.S. Chernyatin, Yu.G. Matvienko, I.A. Razumovsky | Pages 15-19 |
| Determination of fracture mechanics parameters on a base of local displacement measurements | |
| Yu. G. Matvienko, V.S. Pisarev, S. I. Eleonsky | Pages 20-26 |
| Sharp contact corners, fretting and cracks | |
| D. A. Hills, R. C. Flicek, D. Dini | Pages 27-35 |
| Subsurface metals fatigue cracking without and with crack tip | |
| Andrey Shanyavskiy | Pages 36-43 |
| Near tip strain evolution under cyclic loading | |
| J. Tong, Y.-W. Lu, B. Lin, Y. H. Tai, J.R. Yates | Pages 44-49 |
| In situ 3D characterization of fatigue cracks displacement fields | |
| Joel Lachambre, Jean-Yves Buffiere, Julien Réthoré, Arnaud Weck | Pages 50-53 |
| Effect of crack propagation on crack tip fields | |
| F.V. Antunes, A.G. Chegini, L.M. Correia, A.L. Ramalho | Pages 54-60 |
| Recent developments in multi-parametric three-dimensional stress field representation in plates weakened by cracks and notches | |
| P. Lazzarin, M. Zappalorto, F. Berto | Pages 61-68 |
| Multi-parameter crack tip stress state description for estimation of fracture process zone extent in silicate composite WST specimens | |
| Václav Veselý, Jakub Sobek, Lucie Šestáková, Petr Frantík, Stanislav Seitl | Pages 69-78 |
| Is notch sensitivity a stress analysis problem? | |
| Jaime Tupiassú Pinho de Castro, Marco Antonio Meggiolaro | Pages 79-86 |
| Gradient enriched linear-elastic crack tip stresses to estimate the static strength of cracked engineering ceramics | |
| Harm Askes, Luca Susmel | Pages 87-93 |
| On a kinked crack model to describe the influence of material microstructure on fatigue crack growth | |
| Andrea Spagnoli, Andrea Carpinteri, Sabrina Vantadori | Pages 94-101 |
| Pearlitic ductile cast iron: damaging micromechanisms at crack tip | |
| F. Iacoviello, V. Di Cocco, A. Rossi, M. Cavallini | Pages 102-108 |
| Application of thermoelastic stress analysis for the experimental evaluation of the effective stress intensity factor | |
| Francisco A. Díaz, Eann A. Patterson, John R. Yates | Pages 109-116 |
| On numerical integration for effective stress assessment at notches | |
| Enrico Maggiolini, Paolo Livieri, Roberto Tovo | Pages 117-123 |
| Plastic zone evolution near a crack tip and its role in environmentally assisted cracking | |
| Jesús Toribio, Viktor Kharin | Pages 124-129 |
| Role of plasticity-induced crack closure in fatigue crack growth | |
| Jesús Toribio, Viktor Kharin | Pages 130-137 |
| Initiation and growth behavior of very-long microstructurally short fatigue cracks | |
| P. Lorenzino, A. Navarro | Pages 138-144 |
| High magnification crack-tip field characterisation under biaxial conditions | |
| B. Moreno, P. Lopez-Crespo, J. Zapatero | Pages 145-152 |
| Study of overload effects in bainitic steel by synchrotron X-ray diffraction | |
| P. Lopez-Crespo, P.J. Withers, J. R. Yates, A. Steuwer, T. Buslaps, Y. H. Tai | Pages 153-160 |
| Extension of the CJP model to mixed mode I and mode II | |
| C. J. Christopher, G. Laboviciute, M. N. James, E. A. Patterson | Pages 161-166 |
ISSN: 19718993