Modeling High Temperature Materials Behavior for Structural Analysis

Part I: Continuum Mechanics Foundations and Constitutive Models

  • Konstantin Naumenko
  • Holm Altenbach

Part of the Advanced Structured Materials book series (STRUCTMAT, volume 28)

Table of contents

  1. Front Matter
    Pages i-xiii
  2. Konstantin Naumenko, Holm Altenbach
    Pages 1-77
  3. Konstantin Naumenko, Holm Altenbach
    Pages 79-90
  4. Konstantin Naumenko, Holm Altenbach
    Pages 91-140
  5. Konstantin Naumenko, Holm Altenbach
    Pages 141-171
  6. Konstantin Naumenko, Holm Altenbach
    Pages 173-282
  7. Konstantin Naumenko, Holm Altenbach
    Pages 283-322
  8. Back Matter
    Pages 323-371

About this book

Introduction

 This monograph presents approaches to characterize inelastic behavior of materials and structures at high temperature. Starting from experimental observations, it discusses basic features of inelastic phenomena including creep, plasticity, relaxation, low cycle and thermal fatigue.

The authors formulate constitutive equations to describe the inelastic response for the given states of stress and microstructure. They introduce evolution equations to capture hardening, recovery, softening, ageing and damage processes. Principles of continuum mechanics and thermodynamics are presented to provide a framework for the modeling materials behavior with the aim of structural analysis of high-temperature engineering components.

Keywords

Creep Mechanics Creep-Fatigue Kachanov-Rabotnov Model Low Cycle Fatigue Ritz Method Thermo-Mechanical Fatigue Norton-Bailey equation

Authors and affiliations

  • Konstantin Naumenko
    • 1
  • Holm Altenbach
    • 2
  1. 1.Otto-von-Guericke Univ. MagdeburgInstitute of MechanicsMagdeburgGermany
  2. 2.Otto-von-Guericke Univ. MagdeburgInstitute of MechanicsMagdeburgGermany

Bibliographic information

  • DOI https://doi.org/10.1007/978-3-319-31629-1
  • Copyright Information Springer International Publishing Switzerland 2016
  • Publisher Name Springer, Cham
  • eBook Packages Engineering
  • Print ISBN 978-3-319-31627-7
  • Online ISBN 978-3-319-31629-1
  • Series Print ISSN 1869-8433
  • Series Online ISSN 1869-8441
  • About this book
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