Print Email Facebook Twitter Composite Bridge Design: Analysis of Realizing Composite Action in an FRP-Steel Bridge Title Composite Bridge Design: Analysis of Realizing Composite Action in an FRP-Steel Bridge Author Flink, P.J. Contributor Van Almen, M. (mentor) Abspoel, R. (mentor) Rots, J. (mentor) Kolstein, M.H. (mentor) Faculty Civil Engineering and Geosciences Department Structural Engineering Date 2015-12-07 Abstract Many old moveable bridges have exceeded their technical lifetime. Replacement of the foundations is expensive and often unnecessary if the new bridge superstructure is lighter than the old one. With stricter design guidelines being in effect nowadays, a conventional orthotropic steel deck design will end up being heavier. A lightweight fiber reinforced polymer deck supported by steel girders is proposed as a solution. In this thesis the potential mass reduction resulting from a lightweight FRP deck is analyzed. Analyses are initially performed under the assumption that realizing composite action will generate the best results. However, a finite element model of a bolted connection between an FRP deck and steel girders indicates that the strength of such a connection is too low to efficiently realize composite action. An alternate solution where the deck is draped over the main girders with a thin FRP layer is considered and outperforms the composite action design. The design with FRP but without composite action is compared with a standard orthotropic steel design. The FRP design weighs order of magnitude 10% less than its orthotropic counterpart. However, it is still significantly heavier than the original component in need of replacing. Subject Fiber Reinforced PolymerFRPBolted ConnectionComposite ActionGlassFiberFibreTsai WuTsai-WuJulianabrug To reference this document use: http://resolver.tudelft.nl/uuid:dd28e122-0fab-4730-8ad4-5c7c88d3a57d Part of collection Student theses Document type master thesis Rights (c) 2015 Flink, P.J. Files PDF Final_Report.pdf 9.46 MB Close viewer /islandora/object/uuid:dd28e122-0fab-4730-8ad4-5c7c88d3a57d/datastream/OBJ/view