Nachweis von Verbundbauteilen unter Naturbränden

Research output: Contribution to journalArticleResearchpeer review

Authors

  • Peter Schaumann
  • Jens Upmeyer

Research Organisations

View graph of relations

Details

Translated title of the contributionFire design of composite structures exposed to natural fires
Original languageGerman
Pages (from-to)325-333
Number of pages9
JournalSTAHLBAU
Volume71
Issue number5
Publication statusPublished - 28 Mar 2013

Abstract

In this contribution a new approach is introduced for structural fire design of load bearing members. Detailed knowledge of natural fires and their relevant parameters as well as the development in numerical methods for structural fire safety permit an approach that leaves the traditional procedure based on standard fire tests. The basic idea is simple. As in cold design the relevant effects result from mechanical loading, the relevant effects result from the fire load density in the fire situation. Consequentially a limit fire load according to a particular structural member may be defined analogical to the ultimate load bearing capacity in cold design. In real fires stability of the structural member is maintained, if the fire load density is below this limit value. On the basis of numerous numerical simulations it could be demonstrated that composite members, which are classified to the fire resistance class R 60 following the traditional design method, have limit fire load densities higher than 1000 MJ/m2 and do not fail under natural fires in general buildings. For practical design purposes a correlation is given between the traditionally fire resistance classes and design fire scenarios, so that the fire design can be carried out realistically and economically on the bases of a natural fire safety concept.

ASJC Scopus subject areas

Cite this

Nachweis von Verbundbauteilen unter Naturbränden. / Schaumann, Peter; Upmeyer, Jens.
In: STAHLBAU, Vol. 71, No. 5, 28.03.2013, p. 325-333.

Research output: Contribution to journalArticleResearchpeer review

Schaumann, P & Upmeyer, J 2013, 'Nachweis von Verbundbauteilen unter Naturbränden', STAHLBAU, vol. 71, no. 5, pp. 325-333. https://doi.org/10.1002/stab.200201080
Schaumann P, Upmeyer J. Nachweis von Verbundbauteilen unter Naturbränden. STAHLBAU. 2013 Mar 28;71(5):325-333. doi: 10.1002/stab.200201080
Schaumann, Peter ; Upmeyer, Jens. / Nachweis von Verbundbauteilen unter Naturbränden. In: STAHLBAU. 2013 ; Vol. 71, No. 5. pp. 325-333.
Download
@article{52c34d50eec84e17a66715aa26f8ca3f,
title = "Nachweis von Verbundbauteilen unter Naturbr{\"a}nden",
abstract = "In this contribution a new approach is introduced for structural fire design of load bearing members. Detailed knowledge of natural fires and their relevant parameters as well as the development in numerical methods for structural fire safety permit an approach that leaves the traditional procedure based on standard fire tests. The basic idea is simple. As in cold design the relevant effects result from mechanical loading, the relevant effects result from the fire load density in the fire situation. Consequentially a limit fire load according to a particular structural member may be defined analogical to the ultimate load bearing capacity in cold design. In real fires stability of the structural member is maintained, if the fire load density is below this limit value. On the basis of numerous numerical simulations it could be demonstrated that composite members, which are classified to the fire resistance class R 60 following the traditional design method, have limit fire load densities higher than 1000 MJ/m2 and do not fail under natural fires in general buildings. For practical design purposes a correlation is given between the traditionally fire resistance classes and design fire scenarios, so that the fire design can be carried out realistically and economically on the bases of a natural fire safety concept.",
author = "Peter Schaumann and Jens Upmeyer",
year = "2013",
month = mar,
day = "28",
doi = "10.1002/stab.200201080",
language = "Deutsch",
volume = "71",
pages = "325--333",
journal = "STAHLBAU",
issn = "0038-9145",
publisher = "Wiley-Blackwell",
number = "5",

}

Download

TY - JOUR

T1 - Nachweis von Verbundbauteilen unter Naturbränden

AU - Schaumann, Peter

AU - Upmeyer, Jens

PY - 2013/3/28

Y1 - 2013/3/28

N2 - In this contribution a new approach is introduced for structural fire design of load bearing members. Detailed knowledge of natural fires and their relevant parameters as well as the development in numerical methods for structural fire safety permit an approach that leaves the traditional procedure based on standard fire tests. The basic idea is simple. As in cold design the relevant effects result from mechanical loading, the relevant effects result from the fire load density in the fire situation. Consequentially a limit fire load according to a particular structural member may be defined analogical to the ultimate load bearing capacity in cold design. In real fires stability of the structural member is maintained, if the fire load density is below this limit value. On the basis of numerous numerical simulations it could be demonstrated that composite members, which are classified to the fire resistance class R 60 following the traditional design method, have limit fire load densities higher than 1000 MJ/m2 and do not fail under natural fires in general buildings. For practical design purposes a correlation is given between the traditionally fire resistance classes and design fire scenarios, so that the fire design can be carried out realistically and economically on the bases of a natural fire safety concept.

AB - In this contribution a new approach is introduced for structural fire design of load bearing members. Detailed knowledge of natural fires and their relevant parameters as well as the development in numerical methods for structural fire safety permit an approach that leaves the traditional procedure based on standard fire tests. The basic idea is simple. As in cold design the relevant effects result from mechanical loading, the relevant effects result from the fire load density in the fire situation. Consequentially a limit fire load according to a particular structural member may be defined analogical to the ultimate load bearing capacity in cold design. In real fires stability of the structural member is maintained, if the fire load density is below this limit value. On the basis of numerous numerical simulations it could be demonstrated that composite members, which are classified to the fire resistance class R 60 following the traditional design method, have limit fire load densities higher than 1000 MJ/m2 and do not fail under natural fires in general buildings. For practical design purposes a correlation is given between the traditionally fire resistance classes and design fire scenarios, so that the fire design can be carried out realistically and economically on the bases of a natural fire safety concept.

UR - http://www.scopus.com/inward/record.url?scp=0036576977&partnerID=8YFLogxK

U2 - 10.1002/stab.200201080

DO - 10.1002/stab.200201080

M3 - Artikel

AN - SCOPUS:0036576977

VL - 71

SP - 325

EP - 333

JO - STAHLBAU

JF - STAHLBAU

SN - 0038-9145

IS - 5

ER -