“Fatigue in Structures and Materials” delves into the intricate world of material fatigue, exploring the underlying mechanisms, testing methodologies, and engineering strategies essential for understanding and mitigating fatigue-related failures. We provide a comprehensive overview of fatigue phenomena, covering topics such as fatigue crack initiation and propagation, stress concentration factors, cyclic loading effects, and fracture mechanics principles.
Readers will gain insights into advanced testing techniques, computational modeling approaches, and predictive maintenance strategies designed to enhance the durability, reliability, and safety of engineering components subjected to cyclic loading conditions. With a focus on practical applications, case studies, and real-world examples, this book serves as a valuable resource for engineers, researchers, and students. We aim to master the complexities of fatigue analysis, design optimization, and fatigue-resistant materials development across industries such as aerospace, automotive, civil engineering, and materials science.
