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Ultra-low-Cycle Fatigue Failure of Metal Structures under Strong Earthquakes

  • Liang-Jiu Jia
  • Hanbin Ge

Part of the Springer Tracts in Civil Engineering book series (SPRTRCIENG)

Table of contents

  1. Front Matter
    Pages i-xvi
  2. Liang-Jiu Jia, Hanbin Ge
    Pages 1-12
  3. Liang-Jiu Jia, Hanbin Ge
    Pages 71-95
  4. Liang-Jiu Jia, Hanbin Ge
    Pages 153-175
  5. Liang-Jiu Jia, Hanbin Ge
    Pages 177-196
  6. Liang-Jiu Jia, Hanbin Ge
    Pages 197-199
  7. Back Matter
    Pages 201-221

About this book

Introduction

This book presents experimental results and theoretical advances in the field of ultra-low-cycle fatigue failure of metal structures under strong earthquakes, where the dominant failure mechanism is ductile fracture. Studies on ultra-low-cycle fatigue failure of metal materials and structures have caught the interest of engineers and researchers from various disciplines, such as material, civil and mechanical engineering. Pursuing a holistic approach, the book establishes a fundamental framework for this topic, while also highlighting the importance of theoretical analysis and experimental results in the fracture evaluation of metal structures under seismic loading. Accordingly, it offers a valuable resource for undergraduate and graduate students interested in ultra-low-cycle fatigue, researchers investigating steel and aluminum structures, and structural engineers working on applications related to cyclic large plastic loading conditions.

Keywords

Ductile fracture Ultra-low cycle fatigue Cyclic loading Seismic loading Steel structure Aluminum structure Cyclic plasticity Finite element analysis Crack initiation Crack propagation

Authors and affiliations

  • Liang-Jiu Jia
    • 1
  • Hanbin Ge
    • 2
  1. 1.Tongji UniversityShanghaiChina
  2. 2.Meijo UniversityNagoyaJapan

Bibliographic information

  • DOI https://doi.org/10.1007/978-981-13-2661-5
  • Copyright Information Springer Nature Singapore Pte Ltd. 2019
  • Publisher Name Springer, Singapore
  • eBook Packages Engineering
  • Print ISBN 978-981-13-2660-8
  • Online ISBN 978-981-13-2661-5
  • Series Print ISSN 2366-259X
  • Series Online ISSN 2366-2603
  • Buy this book on publisher's site
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