论文信息 - Designing Simply Supported R.C. Bridge Decks Subjected to In-Plane Actions: Strut-and-Tie Model Approach

Designing Simply Supported R.C. Bridge Decks Subjected to In-Plane Actions: Strut-and-Tie Model Approach

The evaluation of the effects of seismic action on the decks of multi-girder bridges is often neglected by practitioners because it is thought that seismic code prescriptions (i.e., deck elastic behavior and minimum reinforcement) in addition to ultimate limit state reinforcement dimensioning for permanent and variable load, do not justify more accurate analyses aimed at checking and/or optimizing reinforcement layout. With the aim of verifying the reliability of this kind of approach, this article proposes a step-by-step procedure, based on the Strut-and-Tie Model, for the design of R.C. girder bridge decks subjected to in-plane seismic actions. As a first application, the proposed approach is used for a single span girder bridge deck. The influence on the model of geometry and supports of the bridge deck as well as the layout of girders and cross-beams is also investigated.

[1] Jorg Schlaich,et al. Design and detailing of structural concrete using strut-and-tie models , 1991 .

[2] Vitone. Load Path Method (LPM) in Detailing Design , 2006 .

[3] Y. Xie,et al. Bidirectional Evolutionary Method for Stiffness Optimization , 1999 .

[4] Yi Min Xie,et al. Topology optimization of strut-and-tie models in non-flexural reinforced concrete members , 1999 .

[5] Basile G. Rabbat,et al. Notes on ACI 318-08, building code requirements for structural concrete : with design applications , 2008 .

[6] Amedeo Vitone,et al. A First Approach to Optimum Design of Cable-Supported Bridges Using Load Path Method , 2008 .

[7] Y. Xie,et al. A simple evolutionary procedure for structural optimization , 1993 .

[8] R. P. Johnson,et al. General rules and rules for buildings , 2004 .

[9] Amedeo Vitone,et al. Load path method in the interpretation of masonry vault behaviour , 2005 .

[10] Y. Xie,et al. Convergent and mesh-independent solutions for the bi-directional evolutionary structural optimization method , 2007 .

[11] Michael N. Fardis,et al. Seismic Design, Assessment and Retrofitting of Concrete Buildings , 2009 .

[12] W. Ritter,et al. Die Bauweise Hennebique , 1904 .

[13] J Schlaich,et al. TOWARD A CONSISTENT DESIGN OF STRUCTURAL CONCRETE , 1987 .

[14] Amedeo Vitone,et al. Il metodo del percorso del carico , 2007 .