General Papers
| A Brief History of the Crack Tip Stress Intensity Factor and Its Application | |
| Paul C. Paris |
| Influence of Hydrogen and Test Frequency on Fatigue Crack Path | |
| Yukitaka Murakami, Saburo Matsuoka |
| Intergranular Fatigue in Interstitial-Free Steels | |
| M. N. James |
| Crack Propagation in Lead-Free Solder under Cyclic Loading of Mode I and II | |
| K. Tanaka |
| QUANTIFYING CRACK TIP DISPLACEMENT FIELDS: TSTRESS AND CTOA | |
| J. R. Yates, M. Zanganeh, D. Asquith, Y. H. Tai |
| Crack Paths in the Fatigue and Fracture of Bone | |
| David Taylor, Peter O’Reilly, Saeid Kasiri, Stewart Mahony |
| 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 |
| 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 |
| Numerical Analysis of Crack Initiation and Propagation Behaviors in TP-650 Titanium Matrix Composites | |
| W.D. Song, J.G. Ning, X.N. Mao |
| Influence of Local Stress Condition on the Micromechanism ofСrack Propagation of Metal Materials under Single LoadingConditions | |
| N.A. Klevtsova |
| Lifetime prediction of an expander impeller using 3-D mixed-mode crack propagation algorithm | |
| K. Molla-Abbasi, D. Anding, K. Ziegler |
| Fatigue Crack Propagation Life Calculation in Welded Joints | |
| A. Al Mukhtar, H. Biermann, P. Hübner, S. Henkel |
| Concrete-to-Concrete Interfacial Surfaces | |
| A. Satoh, K. Yamada, S. Ishiyama |
| Influence of the loading path on fatigue crack growth undernon-proportional mixed-mode loading | |
| V. Doquet, M. Abbadi, Q.H. Bui, A. Pons |
| Thermal Variations in Static Tests on Plastics: a FirstApproach to the Fatigue Parameters Analysis | |
| C. Clienti, G. Fargione, G. La Rosa, A. Risitano, G. Risitano |
| A General Weight Function for Inclined Kinked Cracks in aSemi-Plane | |
| M. Beghini, M. Benedetti, V. Fontanari, B. D. Monelli |
| Non-local Method in Fatigue Life Assessment Using CriticalPlane Concept | |
| A. Karolczuk, A. Cicha?sk |
| Fatigue crack growth in the cruciform specimens under outof-phase loading | |
| Dariusz Rozumek, Cyprian T. Lachowicz, Ewald Macha |
| 3-D Modelling of Plasticity Induced Fatigue Crack Closure-Effect of Material Constitutive Relations | |
| Fernand Ellyin, Folarin Ozah |
| Fatigue Crack Initiation and Propagation in Superalloy IN 713LC | |
| L. Kunz, P. Luká, R. Kone?ná |
| Modeling the mechanics of intergranular crack propagation | |
| A. Stoll, A.J. Wilkinson |
| Load Separation Method in Plastic J-integral Estimation forInclined Cracks | |
| Yu. G. Matvienko, E. L. Muravin |
| An Experimental Study of the Influence of Laser ShockPeening on Fatigue Crack Growth | |
| A. Chahardehi, F. P. Brennan, A. Steuwer |
| Fatigue Crack Path through Cast Al-Si Alloy Microstructure | |
| R. Kone?ná, S. Fintová, G. Nicoletto |
| Crack Path in Turbine Blades for Transition from Very- to High-Cycle-Fatigue Regime | |
| A. A. Shanyavskiy |
| SUBSURFACE SHORT CRACKS PATH IN TI-6AL-3MO-0.4SI TI-ALLOY | |
| A.A. Shanyavskiy, M.D. Banov |
| 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 |
| Observations of Exceptional Fatigue CrackBehaviour in Friction Stir Welded AluminiumGrowth | |
| H.J.K. Lemmen, R.C. Alderliesten, R. Benedictus |
| Influence of Time-Dependent Processes on IntergranularCrack Path in 2XXX Aluminium Alloys | |
| Gilbert Hénaff, Frédéric Menan, Grégory Odemer |
| High Cycle Fatigue Crack Paths in C35 Steel under ComplexLoading | |
| Q. H. Vu, Y. Nadot, D. Halm |
| Mechanism of Fish-eye Formation in the Gigacycle Fatigue | |
| Zhiyong Huang, WeiWei Du, Danièle Wagner, Claude Bathias |
| Smart Stress-Memory Patch Sensor for Fatigue Damage of aSingle Steel Bar JIS G 3502 – Galvanized Wire – JSS II 11 -1994 | |
| M. Enoki, Y. Fujino, E. Sorrivi, S. Takayuki, E. Viola |
| 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 |
| The frustrating tearing of adhesive films | |
| B. Roman, E. Hamm, E. Cerda, P.M. Reis |
| An experimental investigation of the crack growth underproportional and non proportional fatigue loading | |
| P. Zerres, J. Brüning, M. Vormwald |
| Crack growth rates for microstructurally short fatigue cracks | |
| P. Hansson, S. Melin |
| Numerical investigations on the influence of 3D frictionalcrack surface interaction | |
| W. Weber, K. Willner, P. Steinmann, G. Kuhn |
| Near-Threshold Propagation of Mode II and Mode III Cracks | |
| L. Holá?, R. Pippan, J. Pokluda, J. Horníková, A. Hohenwarter, K. Sláme?ka |
| Damaging and cracks path in bended galvanized specimens:influence of Pb and Sn contents | |
| V. Di Cocco, F. Iacoviello, S. Natali |
| On the Mechanism of Factory-Roof Formation | |
| J. Pokluda, K. Sláme?ka, P. Šandera |
| Ferritic Ductile Cast Iron Damaging Characterization | |
| V. Di Cocco, F. Iacoviello |
| Crack path in torsion loading in very high cycle fatigue regime | |
| H.Q. Xue, C. Bathias |
| Design of Layered Ceramics with CrackBifurcation/Deflection Mechanisms | |
| R. Bermejo |
| Crack propagation in Low Temperature Co-fired Ceramics underbiaxial loading | |
| R. Bermejo, I. Kraleva, R. Morrell, F. Aldrian, P. Supancic, R. Danzer |
| Limitations of KII-criterion for crack-path computation inceramics | |
| T. Fett, S. Fünfschilling, R. Oberacker, M.J. Hoffmann, M. Lengauer, R. Bermejo, R. Danzer |
| 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 |
| Use of femtosecond laser spectroscopy for micro-crackanalysis | |
| W. Wessel, A. Brueckner-Foit, J. Mildner, L. Englert, L. Haag, A. Horn, T. Baumert |
| Crack Path Analysis Based on a Variational Principle | |
| E.M. Morozov, Yu.G. Matvienko |
| Finite Element and Experimental Study of Crack Paths in2198-T8 Offset Hole SE(T) Plates with FSW Jointed Pad-upunder Fatigue Load | |
| Yu E Ma, P E. Irving |
| 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 |
| A Micromechanical Damage Model of Ceramic for ShockLoading | |
| Huilan Ren, Jianguo Nin |
| Crack Growth in a High Loaded Bolted Bar Connection | |
| M. Knez, J. Kramberger |
| Fatigue Damage Evolution in Graded Materials | |
| F. Zeismann, M. Besel, A. Brueckner-Foit |
| Efficient finite element modeling of the static collapse ofcomplex bonded structures | |
| D. Castagnetti, A. Spaggiari, E. Dragoni |
| Numerical simulation of crack paths in materials with a functional gradation perpendicular to the crack orientation | |
| M. Fulland, M. Steigemann, H. A. Richard, M. Specovius-Neugebauer |
| Can we describe kinetics of fatigue crack growth withoutinfluence of R-ratio? | |
| M. Szata, G. Lesiuk |
| 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 |
| 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 |
| The Influence of Constraint Level on Crack Path | |
| M. Šev?ík, P. Huta?, L. Náhlík, S. Seitl |
| Crack paths in functionally graded materials | |
| M. Steigemann, M. Fulland, M. Specovius-Neugebauer, H.A. Richard |
| 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 |
| The Tearing of Thin Sheets | |
| E. Bayart, M. Adda-Bedia, A. Boudaoud |
| A Study on the Nucleation and Evolution of HydrogenInduced Cracking in Pipeline Steel | |
| E. M Lazcano-Ugalde, J.L. González-Velázquez, A. Morales-Ramírez |
| Modeling of 3-D Fatigue Crack Growth in Real-Life Components | |
| Daniel Bremberg, Guido Dhondt |
| 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 |
| Spiral Crack Path in Thin Sheets | |
| V. ROMERO, B. ROMAN, E. Cerda |
| Crack Growth Trajectories under Mixed Mode and BiaxialFracture | |
| V.N. Shlyannikov |
| Method for efficient optical crack path observation anddeformation measurement and its usage | |
| S. Henkel, H. Biermann, P. Hübner |
| Mechanical and Fracture Properties of Thermal BarrierCoatings Fabricated using Slurry Spray Technique | |
| P. Nguyen, S.Y Ho, A. Kotousov |
| Crack growth behavior in plasma-sprayed thermal barriercoatings | |
| Shijie Zhu, Zhaoxiang Chen, Lihe Qian |
| An Investigation on Fracture Surfaces of Shot Blasted and AsForged Components in Constant and Variable LoadingFatigue | |
| K. Dalaei, B. Karlsson, L.-E. Svensson |
| Role of the T-stress on the kink of a crack out of an interface | |
| D. Leguillon, S. Murer |
| Some issues in the application of the frictionalcohesive crack model to dam-foundation joints | |
| F. Barpi, S. Valente |
| 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 |
| Probabilistic modelling of concrete cracking. First 3D results. | |
| S. Dal Pont, J.-L. Tailhan |
| Crack and Damage Evaluation in low-k Interconnect Structuresunder Chip Package Interaction Aspects | |
| J. Auersperg, D. Vogel, M.U. Lehr, M. Grillberger, B. Michel |
| The Crack Path Evolution for Monotonic and Cyclic Loading | |
| K. P. Mróz, Z. Mróz |
| Fractographic studies of fatigue cracks under pure Mode II loading | |
| A. Hohenwarter, R. Pippan, Erich Schmid |
| Fatigue Behaviour of Thermal Cutted Steel StructuralElement | |
| J. Kramberger, N. Jezernik, S. Glodež |
| Modelling Residual Strength of Friction Stir Welded Panels by means of Crack Tip Opening Angle (CTOA) | |
| A. Pirondi |
| Solidifying ceramics EUCOR and its tendency to the cracks and fractures | |
| K. Stransky, J. Dobrovska, F. Kavicka, B. Sekanina |
| A weight function method to predict mode I stress intensityfactors of multiple cracks | |
| M.S. Abdul Manan, F.P. Brennan |
| Microstructure-Crack Tip Interactions in P/M Superalloy Material at Elevated Temperatures | |
| H. Ghonem |
| Accounting for cohesive process zones indiscrete crack path prediction | |
| C. Netzker, M. Kaliske, G. Geißler |
| CRACK PATH INSTABILITY IN ALUMINIUM LITHIUM ALLOYSY. | |
| H. Tai, D. T. Asquith, J. R. Yates |
| Influence of discrete residual stress fields on fracture toughness | |
| D. T. Asquith, Y. H. Tai, J. R. Yates |
| Crack Initiation and Propagation on AISI-SAE Stainless Steel 304 Under Rotating Bending Fatigue Tests and Close to Elastic Limit | |
| G.M. Domínguez Almaraz, V.H. Mercado Lemus, M.L. Mondragón Sánchez |
| Fatigue Crack Patterns in Ultrasonic Peened Welded Structures during Constant and Variable Amplitude Loading | |
| G. Marquis, T. Nykänen, T. Björk |
| Damage mechanics of bonded joints in composite material under fatigue | |
| G. Meneghetti, M. Quaresimin, Mauro Ricotta |
| Numerical Investigation of Constraint Effects on FatigueCrack Propagation | |
| I. Varfolomeev, S. Moroz |
| Stress Field Expressions Useful to the Analysis of CrackInitiation and Early Propagation Phases in Notched Shafts Under Torsion | |
| M. Zappalorto, S. Filippi, P. Lazzarin |
| Brittle Failure and Crack Initiation Angle in Plates Weakened by V- and U-Notches Under Mixed Mode (I+II) Loading | |
| F. Berto, P. Lazzarin, M. Elices, F.J. Gómez |
| Experimental and Numerical Study of Fatigue Crack Growth in Notched Specimens | |
| G. Meneghetti, M. Zappalorto, P. Lazzarin |
| Crack Path Predictions in Ni-based Superalloy Plates UsingCoupled Nonlocal Damage-Plasticity | |
| Jonathan P. Belnoue, Giang D. Nguyen, Alexander M. Korsunsky |
| Fatigue crack propagation in new generation steels for plastic moulds | |
| D. Firrao, P. Matteis |
| Crack Propagation Behavior of SCM440H Low Alloy Steel Enhanced by Hydrogen under Long-term Varying Loadand Static Load | |
| Yoshiyuki KONDO, Masanobu KUBOTA, Katsuya SHIMADA |
| Numerical Analysis of 3D Subsurface Crack Propagation in Large Slewing Bearing | |
| R. Poto?nik, J. Flašker, S. Glodež |
| Crack Propagation in Laminar Ceramics | |
| L. Náhlík, L. Šestáková, P. Huta? |
| Experimental Analysis of the Fatigue Strength of a Tubular Welded Joint adopted in a Roller Coaster Structure | |
| B. Atzori, G. Manara, G. Meneghetti |
| 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 |
| On a numerical scheme for curved crack propagation based on configurational forces and maximum dissipation | |
| Henning Schütte |
| Branching of a dissolution driven stress corrosion crack | |
| C. Bjerkén |
| Selected Approaches to Probabilistic Assessment of Fatigue Crack Growth in Metallic Materials with Fairly Reduced Homogeneity | |
| I. ?erný |
| FEM simulation of fatigue damage crack nucleation andgrowth in a pre-damaged materialIgor | |
| K. Korolev, Alexander B. Freidin, Sergei V. Petinov |
| Crack paths in cold drawn pearlitic steel subjected to fatigueand fracture | |
| J. Toribio, B. González, J.C. Matos |
| Environmentally Assisted Cracking Paths in Cold DrawnPearlitic Steel | |
| J. Toribio, E. Ovejero |
| Simulation of crack propagation in thermal barrier coatings | |
| Martin Baker |
| Crack Paths in Weld Details under Combined Normal andShear Loading | |
| Y. Sumi |
| Comparison of DBEM and FEM Crack Path Predictions withExperimental Findings in a notched Shaft under Torsion | |
| R. Citarella, D. Bremberg, F.-G. Buchholz |
| Stress intensity factors in three-dimensional planar crackssubjected to uniform tensile stress | |
| Paolo Livieri, Fausto Segala |
| Competition of Failure Modes under In-Phase and Out-of-Phase loading in a gear steel | |
| S. Beretta, S. Foletti, K. Valiullin |
| A SUB-LAMINATE BASED DAMAGE MODEL TO SIMULATE INITIATION AND GROWTH OF CRACKS IN LAMINATED COMPOSITES | |
| A. Forghani, R. Vaziri, A. Poursartip, F. Ellyin |
| Application of a Subsurface Stress/Strain Fatigue Life Approach to Contact Components under Cyclic Bending Loads | |
| Giora Shatil |
| Multiscale Material Design and Crack Path Prediction of a Cementitious Cover Layer with High Toughness | |
| L.P. Guo, W. Sun, Andrea Carpinteri, A. Spagnoli, Q.Y. Cao |
| omprehensive Evaluation of Crack Resistance for Dam Concrete Based on Temperature Stress Testing Machine | |
| CB. Chen, Y.B. Cai, J.T. Ding, W. Sun, N.N. Shi, B. Dong |
| Tensile Cracking Behaviour of Strain-Hardening Cement-Based Composites using a Micromechanical Lattice Model | |
| Andrea Carpinteri, Roberto Brighenti, Andrea Spagnoli, Sabrina Vantadori |
| Crack path prediction in brittle solids by a new discontinuous-like FE approach | |
| Andrea Carpinteri, Roberto Brighenti, Andrea Spagnoli, Sabrina Vantadori |
| Analysis of spectrum fatigue crack growth in AA7050 specimens with three stress concentrations | |
| W. Zhuang, L. Molent |