It is commonly accepted that the majority of engineering failures happen due to fatigue or fracture phenomena. Adhesive bonding is a prevailing joining technique, widely used for critical connections in composite structures. The demand for reliable and safe structures necessitates deep knowledge in this area in order to avoid catastrophic structural failures. This book reviews research in the field of fatigue and fracture of adhesively-bonded composite joints. Topics include: experimental investigation of the reliability of adhesively-bonded composite joints; current research on understanding damage mechanisms; fatigue and fracture; durability and ageing as well as implications for design; modelling of bond performance and failure mechanisms in different loading conditions. -- Edited summary from book.
Contents
Front Cover; 1.2 Standards and test protocols for experimental fatigue and fracture testing of adhesively-bonded composite joints; 1.3 Standards and test protocols for fatigue and fracture testing of pultruded glass-fiber reinforced polymer-matrix (GFRP) pro ... ; 1.5 Standards and test protocols for modeling and simulation of fracture and fatigue behavior; 1.6 Summary and future trends; 1.7 Sources of further information and advice; Acknowledgments; References; 1. Appendix: list of abbreviations; 2.1 Introduction; 3.1 Introduction; 3.4 Effects of fatigue loading parameters.
17.4 Probabilistic load hazard analysis5.1 Introduction; 5.4 Fatigue testing; 6.1 Introduction; 10.1 Introduction; 7.1 Introduction; 9.1 Introduction; 9.4 Conclusions; 11.1 Introduction; 12.1 Introduction; 12.4 Results and discussion of asymmetry and fiber-bridging effects; 13.1 Introduction to the simulation of fatigue delamination/debonding; 14.1 Introduction; 15.1 Introduction; 8.1 Introduction; 16.1 Introduction; 16.4 Discussion on the S-N formulations; 17.1 Introduction.