Behavior of composite box bridge girders under localized fire exposure conditions

Gang Zhang, Venkatesh Kodur, Weifa Yao, Qiao Huang

Research output: Contribution to journalArticlepeer-review

17 Scopus citations

Abstract

This paper presents results from experimental and numerical studies on the response of steel-concrete composite box bridge girders under certain localized fire exposure conditions. Two composite box bridge girders, a simply supported girder and a continuous girder respectively, were tested under simultaneous loading and fire exposure. The simply supported girder was exposed to fire over 40% of its span length in the middle zone, and the two-span continuous girder was exposed to fire over 38% of its length of the first span and full length of the second span. A measurement method based on comparative rate of deflection was provided to predict the failure time in the hogging moment zone of continuous composite box bridge girders under certain localized fire exposure condition. Parameters including transverse and longitudinal stiffeners and fire scenarios were introduced to investigate fire resistance of the composite box bridge girders. Test results show that failure of the simply supported girder is governed by the deflection limit state, whereas failure of the continuous girder occurs through bending buckling of the web and bottom slab in the hogging moment zone. Deflection based criterion may not be reliable in evaluating failure of continuous composite box bridge girder under certain fire exposure condition. The fire resistance (failure time) of the continuous girder is higher than that of the simply supported girder. Data from fire tests is successfully utilized to validate a finite element based numerical model for further investigating the response of composite box bridge girders exposed to localized fire. Results from numerical analysis show that fire resistance of composite box bridge girders can be highly influenced by the spacing of longitudinal stiffeners and fire severity. The continuous composite box bridge girder with closer longitudinal stiffeners has better fire resistance than the simply composite box bridge girder. It is concluded that the fire resistance of continuous composite box bridge girders can be significantly enhanced by preventing the hogging moment zone from exposure to fire. Longitudinal stiffeners with closer spacing can enhance fire resistance of composite box bridge girders. The increase of transverse stiffeners has no significant effect on fire resistance of composite box bridge girders.

Original languageEnglish
Pages (from-to)193-204
Number of pages12
JournalStructural Engineering and Mechanics
Volume69
Issue number2
DOIs
StatePublished - 10 Jan 2019

Bibliographical note

Publisher Copyright:
Copyright © 2019 Techno-Press, Ltd.

Keywords

  • Bridge fires
  • Bridge girders
  • Finite element analysis
  • Fire resistance
  • Fire tests
  • Steel-concrete composite box girders

Fingerprint

Dive into the research topics of 'Behavior of composite box bridge girders under localized fire exposure conditions'. Together they form a unique fingerprint.

Cite this