Numerical Model for the Fire Protection Performance of Intumescent Coatings Exposed to Natural Fires

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

Autoren

  • Waldemar Weisheim
  • Peter Schaumann
  • Lisa Sander
  • Jochen Zehfuß

Organisationseinheiten

Externe Organisationen

  • Technische Universität Braunschweig
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Titel des SammelwerksConference Proceedings of the 10th International Conference on Structures in Fire 2018
Seiten225-232
Seitenumfang8
PublikationsstatusVeröffentlicht - 2018
Veranstaltung10th International Conference on Structures in Fire - Belfast, Großbritannien / Vereinigtes Königreich
Dauer: 6 Juni 20188 Juni 2018

Abstract

This paper presents a numerical model to simulate the fire protection performance of a water-based intumescent coating in case of a natural fire scenario. Based on own experimental investigations the insulation efficiency of the coating is expressed by temperature and heating rate dependent material properties within the numerical model, such as expansion factors, thermal conductivities and heat capacities. Within the paper two-dimensional numerical models of a coated I-profile in case of a natural fire scenario are presented taking into account the temperature and heating rate dependent expansion process of the coating explicitly. Moreover, a modelling technique is presented to introduce the material properties of the intumescent coating for both the heating and cooling phase. The results of the numerical models are compared to results of a fire test of an unloaded I-section beam and column. The main objective of the paper is to provide a generic numerical model describing the fire protection performance of the investigated intumescent coating in case of arbitrary natural fire scenarios.

Zitieren

Numerical Model for the Fire Protection Performance of Intumescent Coatings Exposed to Natural Fires. / Weisheim, Waldemar; Schaumann, Peter; Sander, Lisa et al.
Conference Proceedings of the 10th International Conference on Structures in Fire 2018. 2018. S. 225-232.

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

Weisheim, W, Schaumann, P, Sander, L & Zehfuß, J 2018, Numerical Model for the Fire Protection Performance of Intumescent Coatings Exposed to Natural Fires. in Conference Proceedings of the 10th International Conference on Structures in Fire 2018. S. 225-232, 10th International Conference on Structures in Fire, Belfast, Großbritannien / Vereinigtes Königreich, 6 Juni 2018. <https://pure.ulster.ac.uk/en/publications/10th-international-conference-on-structures-in-fire-structures-in>
Weisheim, W., Schaumann, P., Sander, L., & Zehfuß, J. (2018). Numerical Model for the Fire Protection Performance of Intumescent Coatings Exposed to Natural Fires. In Conference Proceedings of the 10th International Conference on Structures in Fire 2018 (S. 225-232) https://pure.ulster.ac.uk/en/publications/10th-international-conference-on-structures-in-fire-structures-in
Weisheim W, Schaumann P, Sander L, Zehfuß J. Numerical Model for the Fire Protection Performance of Intumescent Coatings Exposed to Natural Fires. in Conference Proceedings of the 10th International Conference on Structures in Fire 2018. 2018. S. 225-232
Weisheim, Waldemar ; Schaumann, Peter ; Sander, Lisa et al. / Numerical Model for the Fire Protection Performance of Intumescent Coatings Exposed to Natural Fires. Conference Proceedings of the 10th International Conference on Structures in Fire 2018. 2018. S. 225-232
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title = "Numerical Model for the Fire Protection Performance of Intumescent Coatings Exposed to Natural Fires",
abstract = "This paper presents a numerical model to simulate the fire protection performance of a water-based intumescent coating in case of a natural fire scenario. Based on own experimental investigations the insulation efficiency of the coating is expressed by temperature and heating rate dependent material properties within the numerical model, such as expansion factors, thermal conductivities and heat capacities. Within the paper two-dimensional numerical models of a coated I-profile in case of a natural fire scenario are presented taking into account the temperature and heating rate dependent expansion process of the coating explicitly. Moreover, a modelling technique is presented to introduce the material properties of the intumescent coating for both the heating and cooling phase. The results of the numerical models are compared to results of a fire test of an unloaded I-section beam and column. The main objective of the paper is to provide a generic numerical model describing the fire protection performance of the investigated intumescent coating in case of arbitrary natural fire scenarios.",
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AU - Weisheim, Waldemar

AU - Schaumann, Peter

AU - Sander, Lisa

AU - Zehfuß, Jochen

PY - 2018

Y1 - 2018

N2 - This paper presents a numerical model to simulate the fire protection performance of a water-based intumescent coating in case of a natural fire scenario. Based on own experimental investigations the insulation efficiency of the coating is expressed by temperature and heating rate dependent material properties within the numerical model, such as expansion factors, thermal conductivities and heat capacities. Within the paper two-dimensional numerical models of a coated I-profile in case of a natural fire scenario are presented taking into account the temperature and heating rate dependent expansion process of the coating explicitly. Moreover, a modelling technique is presented to introduce the material properties of the intumescent coating for both the heating and cooling phase. The results of the numerical models are compared to results of a fire test of an unloaded I-section beam and column. The main objective of the paper is to provide a generic numerical model describing the fire protection performance of the investigated intumescent coating in case of arbitrary natural fire scenarios.

AB - This paper presents a numerical model to simulate the fire protection performance of a water-based intumescent coating in case of a natural fire scenario. Based on own experimental investigations the insulation efficiency of the coating is expressed by temperature and heating rate dependent material properties within the numerical model, such as expansion factors, thermal conductivities and heat capacities. Within the paper two-dimensional numerical models of a coated I-profile in case of a natural fire scenario are presented taking into account the temperature and heating rate dependent expansion process of the coating explicitly. Moreover, a modelling technique is presented to introduce the material properties of the intumescent coating for both the heating and cooling phase. The results of the numerical models are compared to results of a fire test of an unloaded I-section beam and column. The main objective of the paper is to provide a generic numerical model describing the fire protection performance of the investigated intumescent coating in case of arbitrary natural fire scenarios.

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