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Full Description
Book is organized around new experiments in and modeling of fatigue and its effects over a range of composite materials subjected to multiple mechanical and thermal stresses. An objective of the investigations discussed is to explain failure mechanisms and improve long-term loading prediction and performance. Chapters in the book are edited and refereed presentations made at the most recent ICFC5 conference, held in Nanjing, China.
Contents
Preface; Fatigue Life Assessment via Ply-By-Ply Stress Analysis Under Biaxial Loading; A Residual Stiffness - Residual Strength Coupled Model for Composite Laminate Under Fatigue Loading; Damage in Thermoplastic Composite Structures: Application to High Pressure Hydrogen Storage Vessels; Cyclic Interlaminar Crack Growth in Unidirectional and Braided Composites; Experimental Analysis and Modelling of Fatigue Behaviour of Thick Woven Laminated Composites; Fatigue Behaviour of Woven Composite o Joint; Monotonic and Cyclic Deformation Behavior of Ultrasonically Welded Hybrid Joints Between Light Metals and Carbon Fiber Reinforced Polymers (CFRP); Fatigue-Driven Residual Life Models Based on Controlling Fatigue Stress and Strain in Carbon Fibre/Epoxy Composites; An Energy-Based Fatigue Approach for Composites Combining Failure Mechanisms, Strength and Stiffness Degradation; Fatigue Life Prediction Of Off-Axis Unidirectional Laminate; Thermal Fatigue of AX41 Magnesium Alloy Based Composite Studied Using Thermal Expansivity Measurements; Fabrication of TI/APC-2 Nanocomposite Laminates and Their Fatigue Response at Elevated Temperature; Fatigue and Fracture of Elastomeric Matrix Nanocomposites; Fatigue Delamination of Carbon Fiber Fabrics Reinforced PPS Laminates; Damage Mechanism and Fatigue Behaviour of Uniaxially and Sequentially Loaded Wound Tube Specimens; Influence of Thermal and Mechanical Cycles on the Damping Behaviour of Mg Based-Nanocomposite; Delamination Detection in CFRP Laminates Using A0 and S0 Lamb Wave Modes; Calorimetric Analysis of Dissipative Effects Associated with the Fatigue of GFRP Composites; Correlation Between Crack Propagation Rate and Cure Process of Epoxy Resins; Author Index.
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