Experimental and numerical investigations on the load-bearing behaviour of an innovative prestressed composite slab system under a natural fire scenario

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Autoren

  • Peter Schaumann
  • Patrick Dieter Meyer
  • Martin Mensinger
  • Suet Kwan Koh

Organisationseinheiten

Externe Organisationen

  • Technische Universität München (TUM)
Forschungs-netzwerk anzeigen

Details

OriginalspracheDeutsch
Titel des SammelwerksConference Proceedings of the 10th International Conference on Structures in Fire 2018
Seiten553-560
Seitenumfang7
PublikationsstatusVeröffentlicht - 2018

Abstract

In Germany, regulations for hollow spaces in slab systems require a 30-minutes standard fire resistance of the load-bearing steel construction. Within a current national research project, a natural fire scenario for the hollow space is developed based on realistic fire loads and ventilation conditions in the hollow space. Assuming this realistic fire scenario in the hollow space, two large-scale tests on an innovative composite slab system are performed to evaluate the influence on the loadbearing behaviour of a composite slab system. In this paper, experimental and numerical investigations regarding the heating and load-bearing
behaviour of an innovative composite slab system under the natural fire scenario of hollow spaces are presented. The objective is to evaluate the influence of a newly developed natural fire scenario for hollow spaces on the load-bearing behaviour of the slab system based on the performed largescale fire tests. Furthermore, a three-dimensional numerical Abaqus model, which is validated against test data, will be used for an enhanced understanding of the load-bearing behaviour.

Zitieren

Experimental and numerical investigations on the load-bearing behaviour of an innovative prestressed composite slab system under a natural fire scenario. / Schaumann, Peter; Meyer, Patrick Dieter; Mensinger, Martin et al.
Conference Proceedings of the 10th International Conference on Structures in Fire 2018. 2018. S. 553-560.

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Schaumann P, Meyer PD, Mensinger M, Koh SK. Experimental and numerical investigations on the load-bearing behaviour of an innovative prestressed composite slab system under a natural fire scenario. in Conference Proceedings of the 10th International Conference on Structures in Fire 2018. 2018. S. 553-560
Schaumann, Peter ; Meyer, Patrick Dieter ; Mensinger, Martin et al. / Experimental and numerical investigations on the load-bearing behaviour of an innovative prestressed composite slab system under a natural fire scenario. Conference Proceedings of the 10th International Conference on Structures in Fire 2018. 2018. S. 553-560
Download
@inproceedings{24bb6f51e017486193cd51cd8f29fcf5,
title = "Experimental and numerical investigations on the load-bearing behaviour of an innovative prestressed composite slab system under a natural fire scenario",
abstract = "In Germany, regulations for hollow spaces in slab systems require a 30-minutes standard fire resistance of the load-bearing steel construction. Within a current national research project, a natural fire scenario for the hollow space is developed based on realistic fire loads and ventilation conditions in the hollow space. Assuming this realistic fire scenario in the hollow space, two large-scale tests on an innovative composite slab system are performed to evaluate the influence on the loadbearing behaviour of a composite slab system. In this paper, experimental and numerical investigations regarding the heating and load-bearingbehaviour of an innovative composite slab system under the natural fire scenario of hollow spaces are presented. The objective is to evaluate the influence of a newly developed natural fire scenario for hollow spaces on the load-bearing behaviour of the slab system based on the performed largescale fire tests. Furthermore, a three-dimensional numerical Abaqus model, which is validated against test data, will be used for an enhanced understanding of the load-bearing behaviour.",
author = "Peter Schaumann and Meyer, {Patrick Dieter} and Martin Mensinger and Koh, {Suet Kwan}",
year = "2018",
language = "Deutsch",
isbn = "9781859232743",
pages = "553--560",
booktitle = "Conference Proceedings of the 10th International Conference on Structures in Fire 2018",

}

Download

TY - GEN

T1 - Experimental and numerical investigations on the load-bearing behaviour of an innovative prestressed composite slab system under a natural fire scenario

AU - Schaumann, Peter

AU - Meyer, Patrick Dieter

AU - Mensinger, Martin

AU - Koh, Suet Kwan

PY - 2018

Y1 - 2018

N2 - In Germany, regulations for hollow spaces in slab systems require a 30-minutes standard fire resistance of the load-bearing steel construction. Within a current national research project, a natural fire scenario for the hollow space is developed based on realistic fire loads and ventilation conditions in the hollow space. Assuming this realistic fire scenario in the hollow space, two large-scale tests on an innovative composite slab system are performed to evaluate the influence on the loadbearing behaviour of a composite slab system. In this paper, experimental and numerical investigations regarding the heating and load-bearingbehaviour of an innovative composite slab system under the natural fire scenario of hollow spaces are presented. The objective is to evaluate the influence of a newly developed natural fire scenario for hollow spaces on the load-bearing behaviour of the slab system based on the performed largescale fire tests. Furthermore, a three-dimensional numerical Abaqus model, which is validated against test data, will be used for an enhanced understanding of the load-bearing behaviour.

AB - In Germany, regulations for hollow spaces in slab systems require a 30-minutes standard fire resistance of the load-bearing steel construction. Within a current national research project, a natural fire scenario for the hollow space is developed based on realistic fire loads and ventilation conditions in the hollow space. Assuming this realistic fire scenario in the hollow space, two large-scale tests on an innovative composite slab system are performed to evaluate the influence on the loadbearing behaviour of a composite slab system. In this paper, experimental and numerical investigations regarding the heating and load-bearingbehaviour of an innovative composite slab system under the natural fire scenario of hollow spaces are presented. The objective is to evaluate the influence of a newly developed natural fire scenario for hollow spaces on the load-bearing behaviour of the slab system based on the performed largescale fire tests. Furthermore, a three-dimensional numerical Abaqus model, which is validated against test data, will be used for an enhanced understanding of the load-bearing behaviour.

M3 - Aufsatz in Konferenzband

SN - 9781859232743

SP - 553

EP - 560

BT - Conference Proceedings of the 10th International Conference on Structures in Fire 2018

ER -