Modelling Damage and Failure in Structural Ceramics at Ultra-High Temperatures

  1. Waltraud M. Kriven,
  2. Jingyang Wang,
  3. Yanchun Zhou,
  4. Andrew L. Gyekenyesi,
  5. Soshu Kirihara and
  6. Sujanto Widjaja
  1. M. Pettinà1,
  2. F. Biglari1,
  3. D. D. Jayaseelan2,
  4. L. J. Vandeperre2,
  5. P. Brown3,
  6. A. Heaton3 and
  7. K. Nikbin1

Published Online: 22 NOV 2013

DOI: 10.1002/9781118807743.ch25

Developments in Strategic Materials and Computational Design IV

Developments in Strategic Materials and Computational Design IV

How to Cite

Pettinà, M., Biglari, F., Jayaseelan, D. D., Vandeperre, L. J., Brown, P., Heaton, A. and Nikbin, K. (2013) Modelling Damage and Failure in Structural Ceramics at Ultra-High Temperatures, in Developments in Strategic Materials and Computational Design IV (eds W. M. Kriven, J. Wang, Y. Zhou, A. L. Gyekenyesi, S. Kirihara and S. Widjaja), John Wiley & Sons, Inc., Hoboken, NJ, USA. doi: 10.1002/9781118807743.ch25

Author Information

  1. 1

    Department of Mechanical Engineering, Imperial College London, London, UK

  2. 2

    Centre for Advanced Structural Ceramics, Imperial College London, London, UK

  3. 3

    Dstl Porton Down, Salisbury, Wiltshire SP4 0JQ

Publication History

  1. Published Online: 22 NOV 2013
  2. Published Print: 21 OCT 2013

ISBN Information

Print ISBN: 9781118807279

Online ISBN: 9781118807743

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Keywords:

  • structural ceramics;
  • creep data;
  • failure mapping;
  • multiaxial ductility exhaustion;
  • ultra-high temperature ceramic

Summary

This chapter contains sections titled:

  • Introduction

  • Background for Fracture Mechanics Methods Under Creep Conditions

  • Failure Mechanisms in ZrB2 in the Ultra High Temperature Range

  • Finite Element Modelling

  • Creep Crack Growth Prediction Models

  • Finite Element Framework for Uhtc Materials

  • Conclusions

  • Acknowledgements

  • Nomenclature