General Papers
| Fracture Toughness, Microstructure of S. A. W. Weld Metal | |
| L. DEVILLERS, B. MARANDET, D. KAPLAN, A. Ribes, V. RIBOUD |
| Influence of Microstructure on Toughness of a Steel 20 MnMoNi | |
| D. DORMAGEN, H.-J. ROSEZIN, W. DAHL |
| Investigation of Mechanical, Structural Anisotropy of N-A- XTRA 70 MAG Weldments | |
| S. SEDMAK, L. NEDELJKOVIC, A. RADOVIC |
| Contribution to the Fracture Micromechanism, Morphology of Cr-Mo-V Tool Steels | |
| C. RODlC, A. RODIC, F. VODOPIVEC |
| Ductile Fracture in a V/Nb Dual Phase Steel | |
| V. RADMILOVIC, DJ. DROBNJAK, M. ROGULIC |
| Persistent Slip Bands Induced by Fatigue in a Nickel Base Superalloy | |
| J.N. VINCENT, L. REMY |
| The Influence of Microstructure on Fatigue Crack Initiation and Fatigue Crack Propagation in Al-Mg-Si Alloys | |
| W. RUCH, V. GEROLD |
| Effect of Microstructure on Crack Growth in a High Strength Aluminium Alloy | |
| J. PETIT, P. RENAUD, P. VIOLAN |
| Void Coalescence During Fatigue Crack Growth | |
| D. RHODES, K.J. NIX, J.C. RADON |
| Effects of Plasticity and Strain Rate on Fatigue Crack Growth | |
| L. GUERRA ROSA, C. MOURA BRANCO, J.C. RADON |
| Fractography and the Shape of Part-Through Cracks | |
| M. PRODAN, J.C. RADON |
| Influence of Overloads on the Subsequent Crack Growth of a Fatigue Crack in A E 36 Steel | |
| C. ROBIN, C. CHE HI MI, M. LOUAH, G. PLUVTNAGE |
| Influence of Environment on Microcrack Propagation in High Temperature Low Cycle Fatigue | |
| M. REGER, L. REMY |
| Effect of Plasma Nitriding on Cyclic Behaviour under Various Environmental Conditions | |
| K.T. RIE, TH. LAMPE, W. KOHLER |
| Effect of Microstructures on LCF-Behaviour of Steels in High Pressure Hydrogen Environment | |
| K.T. RIE, W. KOHLER |
| The Fractography of Fatigue Cracking in a Cast Aluminium Alloy at a Range of Temperatures | |
| L.E. CULVER, J.C. BALTHAZAR, J.C. RADON |
| The Role of Microstructure and Notch Root Radius on the fracture toughness of a martensite structure steel | |
| D. Firrao, R. Roberti, G. Silva |
| Low Cycle Fatigue and Fatigue Damage High Temperature Low-Cycle Fatigue of Austenitic and Ferritic Weldments | |
| K.-T. RIE, R.-M. SCHMIDT |
| Linear and Non-Linear Fatigue Damage and Cumulation | |
| N. RECHO |
| Prediction of Thresholds using Cyclic Properties of Material | |
| L. GUERRA ROSA, C.M. BRANCO, J.C. RADON |
| Fatigue Life Prediction based on Microcrack Growth | |
| G. EBI, H. RIEDEL, P. NEUMANN |
| Effect of Prior Cold Work on Low Cycle Fatigue Behaviour of AISI Type 304 Stainless Steel | |
| K.B.S. RAO, M. VALSAN, R. SANDHYA, S.L. MANNAN, P. RODRIGUEZ |
| Brittle Fracture Nucleation in SA 533B-1 Steel | |
| A. MARTIN MEIZOSO, J.M. RODRIGUEZ IBABE, J.L. VIVIENTE SOLÉ, J.GIL SEVILLANO |
| A Study of the Ductile Tearing Mechanism during Single Overloads | |
| N. RANGANATHAN, R. TINTILLER, B. BOUCHET, J. PETIT |
| Effect of Thermomechanical Processing on the Fracture Toughness and Ductility of the Beta-Ti-Alloy Ti-10V-2Fe-3Al | |
| G. TERLINDE, H.J. RATHJEN, K.H. SCHWALBE, G.W. KUHLMAN |
| Failure Analysis of Reheater Tubes involving Creep and Sulfidisation | |
| F. VODOPIVEC, B. RALIC, J. ZVOKELJ, B. DOBOVlSEK |
| Influence of a 3.5% NaCl Solution on the Fracture Mechanisms of Al-Zn-Mg Alloys in Fatigue and Tension | |
| T. MAGNIN, P. RIEUX, C. DUBESSV, J. LE COZE |
| The Double-Torsion Testing of Polymers: A Cinematographic Investigation of Crack Growth | |
| R. FRASSINE, T. RICCO, M. RINK, A. PAVAN |
| Prediction of the Influence of Temperature on Fatigue of Polymers | |
| J.A.M. REMMERSWAAL |
| Effect of Static and Fatigue Pre-loading on Residual Strength and Stiffness of Plain Concrete | |
| H. A. W. CORNELISSEN, H.W. REINHARDT |
| Physical and mathematical modelling of crack tip blunting in C-Mn Ferritic-Pearlitic Steels | |
| R. ROBERTI, D. FIRRAO |
| Fracture Characterization of Composites in Mixed Mode Loading | |
| C. A. C. C. REBELO, A. T. MARQUES, P. M. S. T. DE CASTRO |