Numerical simulation of the heating behaviour of steel profiles with intumescent coating adjacent to trapezoidal steel sheets in fire

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autorschaft

  • Peter Schaumann
  • Florian Tabeling
  • Waldemar Weisheim

Organisationseinheiten

Externe Organisationen

  • shl ingenieure GmbH
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Details

OriginalspracheEnglisch
Seiten (von - bis)158-167
Seitenumfang10
FachzeitschriftJournal of Structural Fire Engineering
Jahrgang7
Ausgabenummer2
PublikationsstatusVeröffentlicht - 13 Juni 2016

Abstract

Purpose-This paper aims to present numerical investigations regarding the heating behaviour of steel elements protected by an intumescent coating with an adjacent trapezoidal steel sheet. Design/methodology/approach-For this purpose, a three-dimensional numerical model of a coated I-section profle is developed in Abaqus taking into account the restrained foaming process of the intumescent coating due to the adjacent member explicitly. Findings-After the validation of the numerical model against own fre tests, the steel temperatures of a coated I-section profle with and without an adjacent trapezoidal steel sheet, resulting from fre exposure according to ISO-834, are compared to demonstrate the in?uence of the steel sheet in detail. Originality/value-The main objective is to evaluate the in?uence of an unprotected trapezoidal steel sheet on the temperatures of coated I-section profles.

ASJC Scopus Sachgebiete

Zitieren

Numerical simulation of the heating behaviour of steel profiles with intumescent coating adjacent to trapezoidal steel sheets in fire. / Schaumann, Peter; Tabeling, Florian; Weisheim, Waldemar.
in: Journal of Structural Fire Engineering, Jahrgang 7, Nr. 2, 13.06.2016, S. 158-167.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Schaumann, P, Tabeling, F & Weisheim, W 2016, 'Numerical simulation of the heating behaviour of steel profiles with intumescent coating adjacent to trapezoidal steel sheets in fire', Journal of Structural Fire Engineering, Jg. 7, Nr. 2, S. 158-167. https://doi.org/10.1108/JSFE-06-2016-012
Schaumann P, Tabeling F, Weisheim W. Numerical simulation of the heating behaviour of steel profiles with intumescent coating adjacent to trapezoidal steel sheets in fire. Journal of Structural Fire Engineering. 2016 Jun 13;7(2):158-167. doi: 10.1108/JSFE-06-2016-012
Schaumann, Peter ; Tabeling, Florian ; Weisheim, Waldemar. / Numerical simulation of the heating behaviour of steel profiles with intumescent coating adjacent to trapezoidal steel sheets in fire. in: Journal of Structural Fire Engineering. 2016 ; Jahrgang 7, Nr. 2. S. 158-167.
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title = "Numerical simulation of the heating behaviour of steel profiles with intumescent coating adjacent to trapezoidal steel sheets in fire",
abstract = "Purpose-This paper aims to present numerical investigations regarding the heating behaviour of steel elements protected by an intumescent coating with an adjacent trapezoidal steel sheet. Design/methodology/approach-For this purpose, a three-dimensional numerical model of a coated I-section profle is developed in Abaqus taking into account the restrained foaming process of the intumescent coating due to the adjacent member explicitly. Findings-After the validation of the numerical model against own fre tests, the steel temperatures of a coated I-section profle with and without an adjacent trapezoidal steel sheet, resulting from fre exposure according to ISO-834, are compared to demonstrate the in?uence of the steel sheet in detail. Originality/value-The main objective is to evaluate the in?uence of an unprotected trapezoidal steel sheet on the temperatures of coated I-section profles.",
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AU - Tabeling, Florian

AU - Weisheim, Waldemar

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PY - 2016/6/13

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N2 - Purpose-This paper aims to present numerical investigations regarding the heating behaviour of steel elements protected by an intumescent coating with an adjacent trapezoidal steel sheet. Design/methodology/approach-For this purpose, a three-dimensional numerical model of a coated I-section profle is developed in Abaqus taking into account the restrained foaming process of the intumescent coating due to the adjacent member explicitly. Findings-After the validation of the numerical model against own fre tests, the steel temperatures of a coated I-section profle with and without an adjacent trapezoidal steel sheet, resulting from fre exposure according to ISO-834, are compared to demonstrate the in?uence of the steel sheet in detail. Originality/value-The main objective is to evaluate the in?uence of an unprotected trapezoidal steel sheet on the temperatures of coated I-section profles.

AB - Purpose-This paper aims to present numerical investigations regarding the heating behaviour of steel elements protected by an intumescent coating with an adjacent trapezoidal steel sheet. Design/methodology/approach-For this purpose, a three-dimensional numerical model of a coated I-section profle is developed in Abaqus taking into account the restrained foaming process of the intumescent coating due to the adjacent member explicitly. Findings-After the validation of the numerical model against own fre tests, the steel temperatures of a coated I-section profle with and without an adjacent trapezoidal steel sheet, resulting from fre exposure according to ISO-834, are compared to demonstrate the in?uence of the steel sheet in detail. Originality/value-The main objective is to evaluate the in?uence of an unprotected trapezoidal steel sheet on the temperatures of coated I-section profles.

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