Anisotropic Behaviour of Damaged Materials

ISBN: 978-3-642-05587-4 (Print) 978-3-540-36418-4 (Online)

Table of contents (11 chapters)

  1. Front Matter

    Pages I-XII

  2. General Description of Anisotropically Damaged Materials

    1. Front Matter

      Pages 1-1

    2. No Access

      Book Chapter

      Pages 3-33

      Applications of Tensor Functions in Damage Mechanics of Anisotropic Materials

    3. No Access

      Book Chapter

      Pages 35-74

      Multiscale Structural Analyses Incorporating Damage Mechanics at the Meso- or Micro-Scales

    4. No Access

      Book Chapter

      Pages 75-112

      Failure Criteria and Compliance Variation of Anisotropically Damaged Materials

    5. No Access

      Book Chapter

      Pages 113-140

      On Description of Damage

  3. Phenomenological and Micromechanical Based Approaches to Anisotropic Damage and Fracture in Brittle Materials

    1. Front Matter

      Pages 141-141

    2. No Access

      Book Chapter

      Pages 143-184

      Anisotropic Elastic-Brittle-Damage and Fracture Models Based on Irreversible Thermodynamics

    3. No Access

      Book Chapter

      Pages 185-219

      Anisotropic Behaviour of Damaged Concrete and Fiber Reinforced Concrete

    4. No Access

      Book Chapter

      Pages 221-258

      Micromechanics of Damage in Brittle Solids

  4. Damaged Induced Creep Anisotropy of Metallic Materials under Thermomechanical Loadings

    1. Front Matter

      Pages 259-259

    2. No Access

      Book Chapter

      Pages 261-293

      On the Extension of Creep-Damage Theories for Isotropic Materials to the Case of Anisotropic Materials

    3. No Access

      Book Chapter

      Pages 295-316

      Anisotropic Creep and Fracture Behaviour of a 9CrMoNbV Weld Metal at 650°C

    4. No Access

      Book Chapter

      Pages 317-349

      Thermo-Damage Coupling Modelling and Applications for Creep Conditions

    5. No Access

      Book Chapter

      Pages 351-359

      ABDM Symposium — Conclusions, Other Directions of Research, Future Trends

  5. Back Matter

    Pages 361-366