Performance of strengthened hybrid structures renovated from old railway steel bridges

Structural repair or maintenance technique has been a hot issue in recent years due to the increasing aging problems of old railway bridges, which have been used beyond or approaching their design service life. A strengthening method for old steel railway bridges by integrating the new structural me...

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Veröffentlicht in:Journal of constructional steel research 2013-06, Vol.85, p.130-139
Hauptverfasser: Lin, Weiwei, Yoda, Teruhiko, Taniguchi, Nozomu, Hansaka, Masanori
Format: Artikel
Sprache:eng
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Zusammenfassung:Structural repair or maintenance technique has been a hot issue in recent years due to the increasing aging problems of old railway bridges, which have been used beyond or approaching their design service life. A strengthening method for old steel railway bridges by integrating the new structural members was adopted in engineering practice in this context. Rubber–latex mortar, GFRP plates and rapid hardening concrete were integrated with the old steel railway bridge to increase its rigidity and reduce both stress levels and structure-borne sound levels of the old steel bridge. The purpose of the present study is to investigate the mechanical performance of the renovated hybrid railway bridge. The material test on aged structural steel, the static loading test on the strengthened bridge, and the impact hammer test on the old bridge before and after strengthening, were performed to confirm the effects of present strengthening method. Moreover, three-dimensional FE models were built to make a comparison study between the strengthened and the original steel bridge. Both experimental and numerical results indicate that the renovation method can greatly enhance the stiffness and reduce the stress levels of steel members, resulting in the extension of the service life of the old steel railway bridge. Furthermore, noise reduction effects by using concrete and rubber–latex mortar were confirmed in the impact test. •A new strengthening method for old steel railway bridges was described.•Material test for an old steel railway bridge over 100 years old was preformed.•Static loading test was performed and the effect of present method was studied.•Hammer impact test was performed and the noise reduction effect was learned.•The performance of rubber-latex, GFRP and rapid hardening concrete was studied.
ISSN:0143-974X
1873-5983
DOI:10.1016/j.jcsr.2013.03.002