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Fatigue analysis of metals has been developing for more than 150 years from a simple approach involving elementary stress calculation based on the theory of elasticity, to a sophisticated treatment demanding a thorough knowledge of complex multiaxial loading and material behavior. Present engineering practice for comprehensive fatigue analysis requires computer-aided engineering (CAE) tools that use knowledge of material properties for cyclic stress–strain and fatigue behavior, structural kinematics for load simulations, finite element analysis for stress–strain calculations, and fatigue damage assessment for crack initiation and propagation life predictions.
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TABLES OF CONTENTS:
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- Road Load Analysis Techniques in Automotive Engineering
- Pseudo Stress Analysis Techniques
- Rainflow Cycle Counting Techniques
- Stress-Based Uniaxial Fatigue Analysis
- Stress-Based Multiaxial Fatigue Analysis
- Fundamentals of Cyclic Plasticity Theories
- Fatigue Life Prediction Methods of Seam-Welded Joints
- Fatigue Life Prediction Methods of Resistance Spot-Welded Joints
- Design and Analysis of Metric Bolted Joints
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