Seismic vulnerability of multi-span continuous girder bridges with steel fibre reinforced concrete columns
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Open Access
Type
ArticleAbstract
The occurrence of earthquakes during the lifetime of bridges can result in the closure or even the failure of the structure. The vulnerability of multi-span continuous girder (MSCG) bridges strongly depends on the seismic performance of its columns. This paper investigates the ...
See moreThe occurrence of earthquakes during the lifetime of bridges can result in the closure or even the failure of the structure. The vulnerability of multi-span continuous girder (MSCG) bridges strongly depends on the seismic performance of its columns. This paper investigates the seismic vulnerability of MSCG bridges with reinforced concrete (RC), steel fibre reinforced concrete (SFRC) and RC-SFRC columns. Quasi-static tests were conducted on eight different columns to obtain the limit-state capacities and validate numerical models. Numerical analyses were performed on MSCG reference bridges with RC, SFRC or RC-SFRC columns to derive probabilistic models of the demands upon critical components. Fragility curves were established as a function of peak ground acceleration by integrating the capacity distributions with correlated component demand distributions. Results indicate that: i) SFRC columns with 1.0% fibre ratio show a better performance-price ratio for improving the structural capacity, compared with those with 1.5%; ii) MSCG bridges with SFRC and RC-SFRC columns are less vulnerable to earthquakes when compared with those constructed using only RC, and these differences increasing with the earthquake intensity; and iii) the seismic vulnerability of MSCG bridges with SFRC placed only at the plastic hinges is similar to the one found SFRC on the whole column. On a broader perspective, the conclusions drawn could offer a new strategy for the seismic enhancement or retrofit of MSCG bridges in earthquake regions, with optimal use of SFRC.
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See moreThe occurrence of earthquakes during the lifetime of bridges can result in the closure or even the failure of the structure. The vulnerability of multi-span continuous girder (MSCG) bridges strongly depends on the seismic performance of its columns. This paper investigates the seismic vulnerability of MSCG bridges with reinforced concrete (RC), steel fibre reinforced concrete (SFRC) and RC-SFRC columns. Quasi-static tests were conducted on eight different columns to obtain the limit-state capacities and validate numerical models. Numerical analyses were performed on MSCG reference bridges with RC, SFRC or RC-SFRC columns to derive probabilistic models of the demands upon critical components. Fragility curves were established as a function of peak ground acceleration by integrating the capacity distributions with correlated component demand distributions. Results indicate that: i) SFRC columns with 1.0% fibre ratio show a better performance-price ratio for improving the structural capacity, compared with those with 1.5%; ii) MSCG bridges with SFRC and RC-SFRC columns are less vulnerable to earthquakes when compared with those constructed using only RC, and these differences increasing with the earthquake intensity; and iii) the seismic vulnerability of MSCG bridges with SFRC placed only at the plastic hinges is similar to the one found SFRC on the whole column. On a broader perspective, the conclusions drawn could offer a new strategy for the seismic enhancement or retrofit of MSCG bridges in earthquake regions, with optimal use of SFRC.
See less
Date
2017-01-01Publisher
ElsevierLicence
Creative Commons Attribution Non-Commercial No Derivatives LicenseCitation
Zhang, Y., Dias-da-Costa, D., Seismic vulnerability of multi-span continuous girder bridges with steel fibre reinforced concrete columns, Engineering Structures, Elsevier, 150: 451–464, 2017 (doi: 10.1016/j.engstruct.2017.07.053).Share