1st Edition

Fatigue of Materials and Structures Physics and Data Science

494 Pages 263 Color & 73 B/W Illustrations

by CRC Press

494 Pages 263 Color & 73 B/W Illustrations

by CRC Press

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Description

Fatigue failure of engineering materials and structures has long been a great challenge for structural integrity, reliability and safety in mechanical, civil and aerospace engineering. These failure mechanisms and their modeling are critical concerns for managing aging structures, and directly affect sustainability across society. In this context, the fundamental theories and methods of fatigue... Read more

1. Introduction and Overview

2. Variable Amplitude Fatigue

3. Multiaxial Fatigue

4. Fatigue Crack Growth

5. Ultra Low Cycle Fatigue

6. Very High Cycle Fatigue

7. Fatigue Reliability

8. Fatigue of Additive Manufactured Materials

9. Fatigue of Joints and Structures

10. Fatigue Modeling with Artificial Intelligence and Machine Learning

11. Advances in Fatigue: Hydrogels, Biomaterials, Ceramics, and Small Scale Dimensional Materials

Editor(s)

Biography

Qingyuan Wang is a Professor and the President of Chengdu University, China and a Professor at Sichuan University, China as well as a fellow of the International Association of Advanced Materials.

Shun-Peng Zhu is Professor at University of Electronic Science and Technology of China.

José Correia is a Researcher at the University of Porto, Portugal.

Abílio de Jesus is an Associate Professor at the University of Porto, Portugal.

Grzegorz Lesiuk is a Professor at the Wrocław University of Technology in Poland.

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