Print Email Facebook Twitter Distribution of peak shear stress in finite element models of reinforced concrete slabs Title Distribution of peak shear stress in finite element models of reinforced concrete slabs Author Lantsoght, E.O.L. (TU Delft Steel & Composite Structures; Universidad San Francisco de Quito) de Boer, A. (Ministry of Infrastructure and the Environment) van der Veen, C. (TU Delft Steel & Composite Structures) Date 2017 Abstract Existing reinforced concrete solid slab bridges in the Netherlands are re-assessed for shear based on a Unity Check: the ratio of the shear stress caused by the applied loads to the shear capacity of the concrete cross-section. The governing shear stress resulting from the self-weight, weight of the wearing surface, distributed and concentrated live loads, can be determined with a simplified spreadsheet-based method, the Quick Scan (Level of Assessment I) as well as with a linear finite element model (Level of Assessment II). When a finite element model is used, a distribution of shear stresses over the width of the slab bridge is automatically found. To compare the governing shear stress caused by the loads to the shear capacity, it is necessary to determine over which width the peak shear stress from the finite element model can be distributed. To answer this question, a finite element model is compared to an experiment. The experiment consists of a continuous, reinforced concrete slab subjected to a single concentrated load close to the support. Seven bearings equipped with load cells that measure the reaction force profile along the width of the slab are used to compare to the stress profile obtained from the finite element model. From this analysis, it is found that the peak shear stress in a linear finite element model can be distributed over 4dl with dl the effective depth to the longitudinal reinforcement of the slab. The comparison of measured reaction force profiles over the support to the stress profile from a finite element model results in a research-based distribution width that replaces the rules of thumb that were used until now. Subject ExperimentFinite element modelsPunching shearSlabShearShear stressStructural load test To reference this document use: http://resolver.tudelft.nl/uuid:28f67646-b4a8-4974-a7f8-6c8df565ad34 DOI https://doi.org/10.1016/j.engstruct.2017.07.005 Embargo date 2019-07-11 ISSN 0141-0296 Source Engineering Structures, 148, 571–583 Part of collection Institutional Repository Document type journal article Rights © 2017 E.O.L. Lantsoght, A. de Boer, C. van der Veen Files PDF ENGSTRUCT_D_15_00684_subm ... ersion.pdf 2.03 MB Close viewer /islandora/object/uuid:28f67646-b4a8-4974-a7f8-6c8df565ad34/datastream/OBJ/view