Fatigue in Additive Manufactured Metals

著者名：Berto, Filippo (EDT)/Du Plessis, Anton (EDT)

Elsevier（2023/09/20発売）

• 言語：ENG
• ISBN：9780323912044
• eISBN：9780323998314

Description

Fatigue in Additive Manufactured Metals provides a brief overview of the fundamental mechanics involved in metal fatigue and fracture, assesses the unique properties of additive manufactured metals, and provides an in-depth exploration of how and why fatigue occurs in additive manufactured metals. Additional sections cover solutions for preventing it, best-practice design methods, and more. The book recommends cutting-edge evidence-based approaches for designing longer lasting additive manufactured metals, discusses the latest trends in the field and the various aspects of low cycle fatigue, and looks at both post-treatment and manufacturing process-based solutions.By providing international standards and testing procedures of additive manufactured metal parts and discussing the environmental impacts of additive manufacturing of metals and outlining simulation and modeling scenarios, this book is an ideal resource for users in industry.- Discusses the underlying mechanisms controlling the fatigue behavior of additive manufactured metal components as well as how to improve the fatigue life of these components via both manufacturing processes and post-processing- Studies the variability of properties in additive manufactured metals, the effects of different process conditions on mechanical reliability, probabilistic versus deterministic aspects, and more- Outlines nondestructive failure analysis techniques and highlights the effects of unique microstructural characteristics on fatigue in additive manufactured metals

Table of Contents

1. Introduction2. Introduction to metal additive manufacturing and unique aspects relating to fatigue3. Low Cycle fatigue of Additive Manufactured (AM) metals4. Fatigue and corrosion-fatigue crack growth behaviour of WAAM Parts5. Fatigue behaviour in presence of defects6. Analytical Methods and Computational Approaches for Modeling the Fatigue Behavior of AM Materials7. Very high cycle fatigue (VHCF) of additive manufacturing (AM) metals8. Defects in additive manufacturing and their influence on structural integrity. 9. Post-treatments improving the fatigue life10. A review of the effects of laser shock peening on properties of additively manufactured Ti6A14V11. Mechanical Properties of lattice materials for fatigue-tolerant design and fabrication