General Papers
| A Brief History of the Crack Tip Stress Intensity Factor and Its Application | |
| Paul C. Paris |
| Fatigue Crack Path in new generation Al alloys: coupled influence of microstructure and atmosphere environment | |
| J. Petit, C. Sarrazin-Baudoux, S. Richard, C. Gasquères |
| Fifty years of crack path research | |
| L. P. Pook |
| Influence of the loading path on fatigue crack growth undernon-proportional mixed-mode loading | |
| V. Doquet, M. Abbadi, Q.H. Bui, A. Pons |
| CRACK PATH OF IN-SERVICE FAILED TITANIUM COMPRESSOR DISKS IN HIGH- AND LOW-CYCLE-FATIGUE REGIME | |
| A.A. Shanyavskiy, Yu.A. Potapenko |
| CRACK PATH OF IN-SERVICE FAILED TITANIUMCOMPRESSOR DISKS IN HIGH- AND LOW-CYCLE-FATIGUE REGIME | |
| A.A. Shanyavskiy, Yu.A. Potapenko |
| Stresses and Crack Tip Stress Intensity Factors AroundSpherical and Cylindrical Voids and Inclusions of DifferingElastic Properties and with Misfit Sizes | |
| Paul C. Paris, Thierry Palin-Luc, Hiroshi Tada, Nicolas Saintier |
| Near-Threshold Propagation of Mode II and Mode III Cracks | |
| L. Holá?, R. Pippan, J. Pokluda, J. Horníková, A. Hohenwarter, K. Sláme?ka |
| On the Mechanism of Factory-Roof Formation | |
| J. Pokluda, K. Sláme?ka, P. Šandera |
| Fatigue crack initiation and growth on a steel in the gigacycleregime with sea water corrosion | |
| Thierry Palin-Luc, Rubén Pérez Mora, Claude Bathias, Gonzalo Domínguez, Paul C. Paris, Jose Luis Arana |
| Cohesive element model for simulation of crack growth incomposite materials | |
| M. Prechtel, P. Leiva Ronda, R. Janisch, G. Leugering, A. Hartmaier, P. Steinmann |
| A Fracture initiation direction influenced by an orthotropic bi-material notch | |
| J. Klusák, T. Profant, M. Kotoul |
| New Approach for the T-stress Estimation for Specimens with a U-notch | |
| M. Hadj Meliani, Z. Azari, G. Pluvinage, Yu.G. Matvienko |
| Photoelastic Analysis of Crack Tip Shielding after an Overload | |
| C. Colombo, E.A. Patterson, L. Vergani |
| On rolling contact fatigue of gear steels with differentinclusion content | |
| G. Donzella, M. Faccoli, A. Mazzù, C. Petrogalli, H. Desimone |
| Prediction of the growth rate and propagation direction of fatiguecracks with the configurational forces model | |
| J. Predan, N. Gubeljak, F.D. Fischer, O. Kolednik |
| In situ monitoring of the crack path in a Ti/SiC metal matrixcomposite | |
| P. Lopez-Crespo, A. Kyrieleis, F. A. Garcia-Pastor, P. J. Withers, M. Peel |
| Fractographic studies of fatigue cracks under pure Mode II loading | |
| A. Hohenwarter, R. Pippan, Erich Schmid |
| Modelling Residual Strength of Friction Stir Welded Panels by means of Crack Tip Opening Angle (CTOA) | |
| A. Pirondi |
| Numerical Analysis of 3D Subsurface Crack Propagation in Large Slewing Bearing | |
| R. Poto?nik, J. Flašker, S. Glodež |
| Mixed mode crack path investigation in a limestone rock using two circular shaped samples –An experimental and theoretical study | |
| M. R. M. Aliha, M. R. Ayatollahi, D. J. Smith, M. J. Pavier |
| Damage Induced Criticality and Scaling Laws of Fatigue Crack Path | |
| M. Bannikov, O. Naimark, V. Oborin, T Palin-Luc |
| FEM simulation of fatigue damage crack nucleation andgrowth in a pre-damaged materialIgor | |
| K. Korolev, Alexander B. Freidin, Sergei V. Petinov |
| A SUB-LAMINATE BASED DAMAGE MODEL TO SIMULATE INITIATION AND GROWTH OF CRACKS IN LAMINATED COMPOSITES | |
| A. Forghani, R. Vaziri, A. Poursartip, F. Ellyin |