General Papers
| Crack Paths in the Fatigue and Fracture of Bone | |
| David Taylor, Peter O’Reilly, Saeid Kasiri, Stewart Mahony |
| Crack stability aspects and crack growth habits in crystals | |
| Y. Katz |
| Influence of Stress Ratio R on the Fatigue Strength and FatigueCrack Path in Metal Materials | |
| G.V. Klevtsov, N.A. Klevtsova |
| Influence of Local Stress Condition on the Micromechanism ofСrack Propagation of Metal Materials under Single LoadingConditions | |
| N.A. Klevtsova |
| Non-local Method in Fatigue Life Assessment Using CriticalPlane Concept | |
| A. Karolczuk, A. Cicha?sk |
| Fatigue Crack Initiation and Propagation in Superalloy IN 713LC | |
| L. Kunz, P. Luká, R. Kone?ná |
| Fatigue Crack Path through Cast Al-Si Alloy Microstructure | |
| R. Kone?ná, S. Fintová, G. Nicoletto |
| Fatigue Crack Paths in AA2024-T3 and AA7050-T7451Treatment When Loaded with Simple Underloads Spectra | |
| M. Krkoska, S.A. Barter, R.C. Alderliesten, P. White, R. Benedictus |
| Numerical investigations on the influence of 3D frictionalcrack surface interaction | |
| W. Weber, K. Willner, P. Steinmann, G. Kuhn |
| Crack propagation in Low Temperature Co-fired Ceramics underbiaxial loading | |
| R. Bermejo, I. Kraleva, R. Morrell, F. Aldrian, P. Supancic, R. Danzer |
| Growth Path of Small Surface-Cracks in Ultrafine GrainedCopper under Cyclic Loading | |
| M. Goto, Y. Ando, S. Z. Han, T. Yakushiji, N. Kawagoishi |
| On platge tickness effect in plane problem of elasticity | |
| A. G. Kotousov, S. Harding, P. Lazzarin |
| Detection of Damage in Beams Utilising the Principle ofStrain Compatibility | |
| S J Wildy, A G Kotousov, B Cazzolato |
| A study of cortical bone microdamage and crack morphologyutilising confocal microscopy and sequential labelling | |
| J. Codrington, J. Kuliwaba, K. Zarrinkalam |
| Theoretical Prediction of the Overload Cycle Effect onFatigue Crack Growth in Plates of Finite Thickness | |
| J. Codrington, A. Kotousov |
| Crack Growth in a High Loaded Bolted Bar Connection | |
| M. Knez, J. Kramberger |
| A Fracture initiation direction influenced by an orthotropic bi-material notch | |
| J. Klusák, T. Profant, M. Kotoul |
| A transversal crack in a steel slab and its analysis | |
| K. Stransky, F. Kavicka, J. Dobrovska |
| Prediction of the growth rate and propagation direction of fatiguecracks with the configurational forces model | |
| J. Predan, N. Gubeljak, F.D. Fischer, O. Kolednik |
| Simulation of Short Crack Propagation in a MicrostructureUsing a Hybrid Boundary Element Technique | |
| M. Kübbeler, I. Roth, U. Krupp, C.-P. Fritzen, H.-J. Christ |
| Mechanical and Fracture Properties of Thermal BarrierCoatings Fabricated using Slurry Spray Technique | |
| P. Nguyen, S.Y Ho, A. Kotousov |
| An Investigation on Fracture Surfaces of Shot Blasted and AsForged Components in Constant and Variable LoadingFatigue | |
| K. Dalaei, B. Karlsson, L.-E. Svensson |
| 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 |
| Fatigue Behaviour of Thermal Cutted Steel StructuralElement | |
| J. Kramberger, N. Jezernik, S. Glodež |
| Solidifying ceramics EUCOR and its tendency to the cracks and fractures | |
| K. Stransky, J. Dobrovska, F. Kavicka, B. Sekanina |
| Accounting for cohesive process zones indiscrete crack path prediction | |
| C. Netzker, M. Kaliske, G. Geißler |
| Crack Propagation Behavior of SCM440H Low Alloy Steel Enhanced by Hydrogen under Long-term Varying Loadand Static Load | |
| Yoshiyuki KONDO, Masanobu KUBOTA, Katsuya SHIMADA |
| FEM simulation of fatigue damage crack nucleation andgrowth in a pre-damaged materialIgor | |
| K. Korolev, Alexander B. Freidin, Sergei V. Petinov |