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Monotonic and Ultra-Low-Cycle Fatigue Behaviour of Pipeline Steels

Experimental and Numerical Approaches

  • António Augusto Fernandes
  • Abílio M.P. de Jesus
  • Renato Natal Jorge

Table of contents

  1. Front Matter
    Pages i-ix
  2. António Augusto Fernandes, Abílio M. P. de Jesus, Renato Natal Jorge
    Pages 1-34
  3. António Augusto Fernandes, Abílio M. P. de Jesus, Renato Natal Jorge
    Pages 35-105
  4. António Augusto Fernandes, Abílio M. P. de Jesus, Renato Natal Jorge
    Pages 107-149
  5. António Augusto Fernandes, Abílio M. P. de Jesus, Renato Natal Jorge
    Pages 151-169
  6. António Augusto Fernandes, Abílio M. P. de Jesus, Renato Natal Jorge
    Pages 171-271
  7. António Augusto Fernandes, Abílio M. P. de Jesus, Renato Natal Jorge
    Pages 273-359
  8. António Augusto Fernandes, Abílio M. P. de Jesus, Renato Natal Jorge
    Pages 361-385
  9. António Augusto Fernandes, Abílio M. P. de Jesus, Renato Natal Jorge
    Pages 387-477
  10. António Augusto Fernandes, Abílio M. P. de Jesus, Renato Natal Jorge
    Pages 479-499
  11. Back Matter
    Pages 501-524

About this book

Introduction

This book covers the development of innovative computational methodologies for the simulation of steel material fracture under both monotonic and ultra-low-cycle fatigue. The main aspects are summarized as follows: i) Database of small and full-scale testing data covering the X52, X60, X65, X70 and X80 piping steel grades. Monotonic and ULCF tests of pipe components were performed (buckled and dented pipes, elbows and straight pipes).ii) New constitutive models for both monotonic and ULCF loading are proposed. Besides the Barcelona model, alternative approaches are presented such as the combined Bai-Wierzbicki-Ohata-Toyoda model. iii) Developed constitutive models are calibrated and validated using experimentally derived testing data. Guidelines for damage simulation are included. The book could be seen as a comprehensive repository of experimental results and numerical modeling on advanced methods dealing with Ultra Low Cycle Fatigue of Pipelines when subjected to high strain loading conditions.

Keywords

Ultra low cycle fatigue Anisotropic and kinematics plasticity Continuum damage mechanics Large-scale testing Non-linear numerical simulation

Editors and affiliations

  • António Augusto Fernandes
    • 1
  • Abílio M.P. de Jesus
    • 2
  • Renato Natal Jorge
    • 3
  1. 1.Faculty of EngineeringUniversity of Porto PortoPortugal
  2. 2.Faculty of EngineeringUniversity of PortoPortoPortugal
  3. 3.Faculty of EngineeringUniversity of Porto PortoPortugal

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