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Journal Article

Citation

Li S, Jiaolei Z, Zhao D, Deng L. J. Struct. Fire Eng. 2021; 12(3): 363-376.

Copyright

(Copyright © 2021, Emerald Group Publishing)

DOI

10.1108/JSFE-12-2020-0039

PMID

unavailable

Abstract

PURPOSE This study aims to further study the fire resistance of prefabricated concrete beam-column joints with end-plate connection. This paper aims to analyze the fire resistance of this joint in prefabricated reinforced concrete frame structure (PRCS).

DESIGN/METHODOLOGY/APPROACH First, the accuracy of the model is verified by using the test data. Based on this, a refined finite element model of PRCS structure with two stories and two spans is established. The influence of four working conditions with different fire floors (positions) and different axial compression ratios on the deformation, failure and fire resistance of PRCS structure are analyzed.

FINDINGS The results show that under the four working conditions, the fire resistance of the PRCS structure under Condition 1 and Condition 2 is smaller. It shows that the beam deformation develops slowly in PRCS structure under four kinds of fire positions, and the large displacement emerges 60 min later, which is poles apart from that of prefabricated beam column members. With the increase of the fire time, the material is damaged and deteriorated, which leads to the eccentricity of the axial load, so that the column top appears large lateral displacement. Under the Conditions 1 and 3, the lateral displacement of the column gradually decreases as the axial compression ratio rises.

ORIGINALITY/VALUE It is found that there is a distinct lack of researching on the fire resistance of prefabricated joints, and the existed research studies are limited to the fire resistance of members. Thus, it is necessary to strengthen the first floor and side column design of prefabricated frame structure.


Language: en

Keywords

Axial compression ratio; Beam-column joint; Fire location; Fire resistance limit; Prefabricated frame structure

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