The effects of protected beams and their connections on the fire resistance of composite buildings

Lin, Shuyuan; Huang, Zhaohui; Fan, Mizi

doi:10.1016/j.firesaf.2015.08.003

Cited by 6 publications

(5 citation statements)

References 21 publications

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“…Many theoretical models have been adopted to represent the material behavior of steel and concrete at elevated temperature. In this study, the Eurocode was selected because it is widely used and has been validated by many researchers (Memari et al, 2014;Lin et al, 2015;Selamet and Bolukbas, 2016;Jiang and Li, 2018).…”

Section: Materials Behavior At Elevated Temperaturementioning

confidence: 99%

Model Parameter Sensitivity for Structural Analysis of Composite Slab Structures in Fire

Suwondo¹,

Cunningham²,

Gillie³

et al. 2021

IJTech

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The behavior of buildings during fires has recently become a significant issue. Analyzing structures at elevated temperatures is complex and challenging in structural engineering as engineers must take into consideration factors that may not be included at ambient temperatures, namely material and geometric non-linearity as well as time-temperature-varying strength. In this study, the finite element software ABAQUS was applied to model and simulate the behavior of structures in fire events. Steel beams and columns were modeled using two-node linear beam elements, while concrete slabs were discretized using shell elements. A series of verification analyses were conducted to ensure that the analysis produced an acceptable level of accuracy. Furthermore, an extensive sensitivity study was carried out to obtain the appropriate modeling parameters to be used in subsequent numerical analyses.

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Section: Materials Behavior At Elevated Temperaturementioning

confidence: 99%

Model Parameter Sensitivity for Structural Analysis of Composite Slab Structures in Fire

Suwondo¹,

Cunningham²,

Gillie³

et al. 2021

IJTech

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show abstract

“…The analyses also demonstrated that the surrounding cool structure can improve the fire resistance of the fire compartment. Lin et al [18] investigated the effect of protected beams on the fire resistance of composite buildings. They compared the behaviour of the composite floor with fixed and non-fixed vertical support on the protected steel beams at the perimeter of the slab panel.…”

Section: Figure 1: Tensile Membrane Action Mechanismmentioning

confidence: 99%

Improving the performance of composite floors subjected to post-earthquake fire

Suwondo

Cunningham

Gillie

et al. 2018

Fire Safety Journal

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It is well-known that tensile membrane action in concrete floor slabs can enhance the fire resistance of a composite steel frame building. Vertical supports provided by protected beams along the edge of the slab panel play an important role in the development of the tensile membrane actions. The present study investigates the effect of fire insulation delamination on the protected beam, as might occur in an earthquake, on the fire resistance of composite floors subject to fire following an earthquake. The results show that fire insulation delamination considerably reduces the development of tensile membrane action. Based on the results obtained, two methods of improvement are presented to enhance the development of tensile membrane action concurrent with fire insulation delamination. It is found that increasing slab thickness and improving fire protection rating can enhance the fire resistance of the whole building even with fire insulation delamination.

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“…They also proposed a simplified method to calculate the non-linear characteristics of composite connections in the analysis of beam catenary action at high temperatures, which was validated against their experimental results. Lin et al [14] used 2-noded connection elements representing end-plate and partial-depth endplate connections in their high-temperature 3-D composite floor model to take into account of the impact of connections on the 3-D behaviour of composite floors in fire. Selamet et al [15] modelled a composite steel-framed floor system with beam-to-beam shear connections at elevated temperatures and found that the connection reaches its axial and rotational capacities during the fire cooling phase, leading to the failure of bolts caused by combined shear and tension.…”

Section: Introductionmentioning

confidence: 99%

Three-dimensional modelling of composite frames with ductile connections in fire

2022

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The effects of protected beams and their connections on the fire resistance of composite buildings

Cited by 6 publications

References 21 publications

Model Parameter Sensitivity for Structural Analysis of Composite Slab Structures in Fire

Model Parameter Sensitivity for Structural Analysis of Composite Slab Structures in Fire

Improving the performance of composite floors subjected to post-earthquake fire

Three-dimensional modelling of composite frames with ductile connections in fire

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