Book cover for Advanced polymer composites for structural applications in construction: Proceedings of the first international conference, held at Southampton University, UK, on 15–17 April 2002
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Advanced polymer composites for structural applications in construction: Proceedings of the first international conference, held at Southampton University, UK, on 15–17 April 2002
Edited by
R A Shenoi
R A Shenoi
University of Southampton
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S S J Moy
S S J Moy
University of Southampton
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L C Hollaway
L C Hollaway
University of Surrey
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Author and Other Information
Emerald Publishing Limited
DOI:
https://doi.org/10.1680/apcfsaic.31227
ISBN print:
978-0-7277-3900-1
Publication date:
2002
Book Chapter

2.7 Ductility and deformability of fibre composites strengthened reinforced concrete beams

By
D B Tann;
D B Tann
University of Glamorgan, UK
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R Delpak;
R Delpak
University of Glamorgan, UK
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E Andreou
E Andreou
University of Glamorgan, UK
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Author and Other Information
D B Tann, R Delpak, E Andreou
University of Glamorgan, UK
Doi:
https://doi.org/10.1680/apcfsaic.31227.0012
  • Published:
    2002

The brittle failure mode seen in many Fibre Reinforced Polymer (FRP) composites strengthened concrete elements is due to a lack of system ductility, and is a prime concern to the structural engineers. This paper discusses the distinction between deformability and ductility of reinforced concrete (RC) beams strengthened by externally bonded FRP composites. High deformability index does not necessarily lead to good ductility, as very brittle failure modes of such beams have been observed in the experimental studies. An energy-based method was found to be more suitable for quantifying ductility levels of FRP strengthened RC members. It was found that acceptable degree of ductility for FRP strengthened concrete flexural elements could be achieved if the cross sectional area and the properties of the composites were designed at an optimised level.

  • INTRODUCTION

  • TRADITIONAL METHODS FOR DUCTILITY CALCULATION

  • DEFORMABILITY AND DUCTILITY

  • EXPERIMENTAL VERIFICATION

  • DISCUSSIONS AND CONCLUSIONS

  • REFERENCES

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