Fatigue Failure and Fracture Mechanics

Preface
Chapter 1: Fatigue Life Prediction
Low Cycle Fatigue Life of Martensitic Cast Steel after Ageing
Experimental Verification of the Analytical Method for Estimated S-N Curve in Limited Fatigue Life
Fatigue Life Calculation in Conditions of Wide Spectrum Random Loadings – The Experimental Verification of a Calculation Algorithm on the Example of 41Cr4 Steel
The Fictitious Radius as a Tool for Fatigue Life Estimation of Notched Elements
Determination of Fatigue Life on the Basis of Experimental Fatigue Diagrams under Constant Amplitude Load with Mean Stress
Applying a Stepwise Load for Calculation of the S-N Curve for Trabecular Bone Based on the Linear Hypothesis for Fatigue Damage Accumulation
Concept of Fatigue for Determining Characteristics of Materials with Strengthening
Chapter 2: Fatigue Properties of Materials
Material Properties Investigations With the Use of Microspecimen
Effect of Microstructure on Rolling Contact Fatigue of Bearings
Determination of the Fatigue Properties of Aluminum Alloy Using Mini Specimen
Description of Cyclic Properties of Steel in Variability Conditions of Mean Values and Amplitudes of Loading Cycles
The Comparison of Cyclic Properties of X5CrNi18-10 Steel in the Range of Low-Cycle Fatigue in Conditions of Stress and Strain Control
Method of Determining the Initial Stiffness Modulus for Trabecular Bone under Stepwise Load
Chapter 3: Fatigue of Welded Structures
Fatigue Test Welded Joints Steel S960QL
Influence of the Notch Rounding Radius on Estimating the Elastic Notch Stress Concentration Factor in a Laser Welded Tee Joint
Fatigue Life Tests of Explosively Cladded Steel-Titanium Bimetal
Simulation of Tensile Test of the 1/2Y Welded Joint Made of Ultra High Strength Steel
Identification of Efficient Material S-N Curve for Steel Welded Joints
Residual Stresses in Steel-Titanium Composite Manufactured by Explosive Welding
The Impact of the Laser Welding Speed on the Mechanical Properties of Joints in Multilayer Pipes
Chapter 4: Temperature and Thermo-Mechanical Fatigue
Model of the Deformation Process under Thermo-Mechanical Fatigue Conditions
Influence of Temperature on the Cyclic Properties of Martensitic Cast Steel
Use of Thermography for the Analysis of Strength Properties of Mini-Specimens
Variations of the Specimen Temperature Depending on the Pattern of the Multiaxial Load – Preliminary Research
Chapter 5: Multiaxial Fatigue
Steel X2CrNiMo17-12-2 Testing for Uniaxial, Proportional and Non-Proportional Loads as Delivered and in the Annealed Condition
Estimation of Fatigue Life of Materials with Out-of-Parallel Fatigue Characteristics under Block Loading
Criteria Evaluation for Fatigue Life Estimation under Proportional and Non-Proportional Loadings
Chapter 6: Fatigue Crack Growth
Fracture Toughness of Structural Members
Fatigue Crack Growth Rates of S235 and S355 Steels after Friction Stir Processing
An Experimental Investigation on Crack Initiation and Growth in Aircraft Fuselage Riveted Lap Joints
Application of Digital Image Correlation in Fatigue Crack Analysis
Dual-Band Experimental System For Subsurface Cracks Testing
Dual-Camera Vision System for Fatigue Monitoring
Modeling of Crack Growth in Steels