Fire performance of external semi-rigid composite joints

Research output: Chapter in book/report/conference proceedingConference contributionResearchpeer review

Authors

  • P. Schaumann
  • B. Zhao
  • O. Bahr
  • C. Renaud

Research Organisations

External Research Organisations

  • Centre technique industriel de la construction métallique (CTICM)
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Details

Original languageEnglish
Title of host publicationStructures in Fire
Subtitle of host publicationProceedings of the Sixth International Conference, SiF'10
Pages629-637
Number of pages9
Publication statusPublished - 2010
Event6th International Conference on Structures in Fire, SiF'10 - East Lansing, MI, United States
Duration: 2 Jun 20104 Jun 2010

Publication series

NameStructures in Fire - Proceedings of the Sixth International Conference, SiF'10

Abstract

This contribution deals with the fire performance of external semi-rigid composite joints. First, the design principles of two newly developed joints are explained. Four fire tests were carried out to investigate the fire performance of the new joints. To study local phenomena in the joint, a three-dimensional numerical model was established with the Finite Element code Abaqus for one joint type. The data obtained from the fire tests were used to validate the model. It is shown that the model is suitable to predict the fire performance of the chosen external semi-rigid composite joint. Thus, parametric studies were conducted to extend the parameter set of the fire tests. Based on the results of the numerical studies, the paper concludes with recommendations for the design of the developed composite joints.

ASJC Scopus subject areas

Cite this

Fire performance of external semi-rigid composite joints. / Schaumann, P.; Zhao, B.; Bahr, O. et al.
Structures in Fire : Proceedings of the Sixth International Conference, SiF'10. 2010. p. 629-637 (Structures in Fire - Proceedings of the Sixth International Conference, SiF'10).

Research output: Chapter in book/report/conference proceedingConference contributionResearchpeer review

Schaumann, P, Zhao, B, Bahr, O & Renaud, C 2010, Fire performance of external semi-rigid composite joints. in Structures in Fire : Proceedings of the Sixth International Conference, SiF'10. Structures in Fire - Proceedings of the Sixth International Conference, SiF'10, pp. 629-637, 6th International Conference on Structures in Fire, SiF'10, East Lansing, MI, United States, 2 Jun 2010.
Schaumann, P., Zhao, B., Bahr, O., & Renaud, C. (2010). Fire performance of external semi-rigid composite joints. In Structures in Fire : Proceedings of the Sixth International Conference, SiF'10 (pp. 629-637). (Structures in Fire - Proceedings of the Sixth International Conference, SiF'10).
Schaumann P, Zhao B, Bahr O, Renaud C. Fire performance of external semi-rigid composite joints. In Structures in Fire : Proceedings of the Sixth International Conference, SiF'10. 2010. p. 629-637. (Structures in Fire - Proceedings of the Sixth International Conference, SiF'10).
Schaumann, P. ; Zhao, B. ; Bahr, O. et al. / Fire performance of external semi-rigid composite joints. Structures in Fire : Proceedings of the Sixth International Conference, SiF'10. 2010. pp. 629-637 (Structures in Fire - Proceedings of the Sixth International Conference, SiF'10).
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AB - This contribution deals with the fire performance of external semi-rigid composite joints. First, the design principles of two newly developed joints are explained. Four fire tests were carried out to investigate the fire performance of the new joints. To study local phenomena in the joint, a three-dimensional numerical model was established with the Finite Element code Abaqus for one joint type. The data obtained from the fire tests were used to validate the model. It is shown that the model is suitable to predict the fire performance of the chosen external semi-rigid composite joint. Thus, parametric studies were conducted to extend the parameter set of the fire tests. Based on the results of the numerical studies, the paper concludes with recommendations for the design of the developed composite joints.

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