Fatigue of Materials at Very High Numbers of Loading Cycles

Chapter 1 Fatigue of low alloyed carbon steels in the HCF/VHCF-regimes

Chapter 2 Atomic-scale modeling of elementary processes during the fatigue of metallic materials: from crack initiation to crack-microstructure interactions

Chapter 3 Fatigue behaviour of austenitic stainless steels in the VHCF regime

Chapter 4 Simulation of the VHCF deformation of austenitic stainless steels and its effect on the resonant behaviour

Chapter 5 Slip band formation and crack initiation during very high cycle fatigue of duplex stainless steel – Part 1: Mechanical testing and microstructural investigations

Chapter 6 Fatigue mechanism and its modeling of an austenitic-ferritic duplex stainless steel under HCF and VHCF loading conditions

Chapter 7 Influence of different loading stresses on the peak shape of X-ray rocking curves of an austenitic-ferritic duplex stainless steel during VHCF

Chapter 8 Three-dimensional characterization of duplex stainless steel by means of synchrotron radiation X-ray diffraction imaging techniques

Chapter 9 Very high cycle fatigue crack initiation: investigation of fatigue mechanisms and threshold values for 100Cr6

Chapter 10 Evaluation of multiple-flaw failure of bearing steel 52100 of different heats in the VHCF regime and mathematical determination of single-flaw behaviour

Chapter 11 Influence of near-surface stress gradients and strength effect on the very high cycle fatigue behavior of 42CrMo4 Steel

Chapter 12 Fatigue behavior of X10CrNiMoV12-2-2 under the influence of mean loads and stress concentration factors in the very high cycle fatigue regime

Chapter 13 Experimental and numerical investigations on crack initiation and crack growth under constant and variable amplitude loadings in the VHCF regime

Chapter 14 Influence of ceramic particles and fibre reinforcement in metal-matrix-composites on the VHCF behaviour. Part I: Experimental investigations of fatigue and damage behaviour

Chapter 15 Influence of ceramic particles and fibre reinforcement in metal matrix composites on the VHCF behaviour. Part II: Stochastic modelling and statistical inference

Chapter 16 Development of a fatigue life prediction concept in the very high cycle fatigue range based on covariate microstructural features

Chapter 17 Experimental investigation of damage detection and crack initiation up to the very high cycle fatigue regime

Chapter 18 Discrete dislocation dynamics study of dislocation microstructure during cyclic loading

Chapter 19 Investigation of the infinite life of fibre-reinforced plastics using X-ray refraction topography for the in-situ, non-destructive evaluation of micro-structural degradation processes during cyclic fatigue loading

Chapter 20 Very high cycle fatigue of carbon fiber reinforced polyphenylene sulfide at ultrasonic frequencies

Chapter 21 Acoustics based assessment of a composite material under very high cycle fatigue loading

Chapter 22 Methodology for the high-frequency testing of fiber-reinforced plastics

Chapter 23 Very high cycle fatigue testing and behavior of GFRP cross- and angle-ply laminates

Chapter 24 A physically based fatigue damage model for simulating three-dimensional stress states in composites under very high cycle fatigue loading

Chapter 25 Investigation of the fatigue behaviour of carbon fibre reinforced plastics due to micro-damage and effects of the micro-damage on the ply strengths in the very high cycle fatigue regime

Chapter 26 Damage initiation and failure mechanisms of carbon nanoparticle modified CFRP up to very high cycle fatigue-loading

Chapter 27 Characterisation and modelling of the inter-fibre cracking behaviour of CFRP up to very high cycles