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International Journal of Steel Structures

Erschienen in:

08.12.2022

Experimental Study on Fire Resistance Performance of Concrete-Filled Steel Plate Composite Walls

verfasst von: Ting Zhou, Xueshan Liu, Hongbo Liu, Yixuan Li, Pengfei Zhang, Huazhou Chen, Zhihua Chen

Erschienen in: International Journal of Steel Structures | Ausgabe 2/2023

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Abstract

Concrete-filled steel plate composite walls are increasingly used in high-rise buildings; their mechanical properties at room temperature have produced fruitful results. However, research on their mechanical properties in fire and at high temperatures is scarce. Moreover, published studies on the fire resistance of concrete-filled steel plate composite walls have not considered the impact of fire protection measures. Based on previous fire resistance research, a fire resistance test was designed in this study for four walls under the combined action of axial compression and a single-sided fire under the ISO-834 standard heating curve. Apart from that, the existing fire protections have the disadvantages of too thick, easy falling off and cracking or difficult to install. In order to eliminate the disadvantages of existing fire prevention measures, new composite fireproof structure using a rock wool board and a thin fire-retardant coating is proposed. The effects of no fireproof structures, autoclaved lightweight concrete plate fireproof structures, thick-coated fire-retardant structures, and new composite fireproof structures on the fire resistance of concrete-filled steel plate composite walls were studied experimentally. The results show that the fire resistance of the four test specimens meets the 3 h fire resistance limit of the primary load-bearing component in the specification. Based on the experimental results, reasonable fire protection methods are suggested for concrete-filled steel plate composite walls in actual projects, and an experimental basis is provided for further numerical simulation.

Vorheriger Artikel A Study on Cold-Formed Steel Lipped Channel Flexural Members at Elevated Temperature Under Various Loading Scenarios

Nächster Artikel XFEM-based Fatigue Crack Propagation Analysis on Key Welded Connections of Orthotropic Steel Bridge Deck

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Titel: Experimental Study on Fire Resistance Performance of Concrete-Filled Steel Plate Composite Walls
verfasst von: Ting Zhou
Xueshan Liu
Hongbo Liu
Yixuan Li
Pengfei Zhang
Huazhou Chen
Zhihua Chen
Publikationsdatum: 08.12.2022
Verlag: Korean Society of Steel Construction
Erschienen in: International Journal of Steel Structures / Ausgabe 2/2023
Print ISSN: 1598-2351
Elektronische ISSN: 2093-6311
DOI: https://doi.org/10.1007/s13296-022-00700-4

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