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Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
A Fiber-Based Heat Transfer Element for Modeling the Thermal Response of Structural Members Subjected to Fire
This paper presents a novel type of heat transfer finite element that can be used to capture the three-dimensional thermal response of structural beams and columns subjected to realistic fire conditions. The element is a 3-node heat transfer element that uses a fiber discretization to account for both transverse and longitudinal temperature variations within a structural member. This fiber heat transfer element is explicitly formulated to be compatible with any fiber-based beam-column element in a sequentially coupled thermal-mechanical analysis of structural frames subjected to fire. While the element combines finite element and finite difference approximations of the thermal response, the element equations are in a form that can readily be implemented in an existing finite element analysis program. Because the element is discretized into longitudinal fibers, the fiber heat transfer element can account for temperature-dependent material properties and can also be used to model members comprising more than one material (e.g., steel-concrete composite members). To demonstrate the capabilities of the fiber heat transfer element, analyses are performed on a rectangular steel bar with various types of thermal boundary conditions. Results indicate that the fiber heat transfer element offers excellent accuracy and computational efficiency, making the fiber heat transfer element a valuable tool for modeling the thermal behavior of structural frames in fire.
A Fiber-Based Heat Transfer Element for Modeling the Thermal Response of Structural Members Subjected to Fire
This paper presents a novel type of heat transfer finite element that can be used to capture the three-dimensional thermal response of structural beams and columns subjected to realistic fire conditions. The element is a 3-node heat transfer element that uses a fiber discretization to account for both transverse and longitudinal temperature variations within a structural member. This fiber heat transfer element is explicitly formulated to be compatible with any fiber-based beam-column element in a sequentially coupled thermal-mechanical analysis of structural frames subjected to fire. While the element combines finite element and finite difference approximations of the thermal response, the element equations are in a form that can readily be implemented in an existing finite element analysis program. Because the element is discretized into longitudinal fibers, the fiber heat transfer element can account for temperature-dependent material properties and can also be used to model members comprising more than one material (e.g., steel-concrete composite members). To demonstrate the capabilities of the fiber heat transfer element, analyses are performed on a rectangular steel bar with various types of thermal boundary conditions. Results indicate that the fiber heat transfer element offers excellent accuracy and computational efficiency, making the fiber heat transfer element a valuable tool for modeling the thermal behavior of structural frames in fire.
A Fiber-Based Heat Transfer Element for Modeling the Thermal Response of Structural Members Subjected to Fire
Jeffers, Ann E. (Autor:in) / Sotelino, Elisa D. (Autor:in)
Structures Congress 2009 ; 2009 ; Austin, Texas, United States
Structures Congress 2009 ; 1-10
29.04.2009
Aufsatz (Konferenz)
Elektronische Ressource
Englisch
| British Library Conference Proceedings | 2009
Fiber Heat Transfer Element for Modeling the Thermal Response of Structures in Fire
| Online Contents | 2009
Fiber Heat Transfer Element for Modeling the Thermal Response of Structures in Fire
| British Library Online Contents | 2009