6533b7d5fe1ef96bd1264750
RESEARCH PRODUCT
Computational Study of Failure of Hybrid Steel Trussed Concrete Beams
Roberto BallariniLidia La MendolaAlessia MonacoJia Liang Lesubject
Materials scienceConcrete beams0211 other engineering and technologies020101 civil engineering02 engineering and technologyBendingComposite beams0201 civil engineeringSize and geometrical effectsSize and geometrical effect021105 building & constructionGeneral Materials ScienceCivil and Structural EngineeringSeries (mathematics)business.industryMetal and composite structuresMechanical EngineeringComposite beam; Finite-element modeling; Fracture; Size and geometrical effects; Metal and composite structuresBuilding and ConstructionStructural engineeringFinite-element modelingFinite element methodFractureMechanics of MaterialsFracture (geology)Fe modelComposite beambusinessdescription
This study investigates the failure behavior of hybrid steel trussed concrete beams (HSTCBs) under three-point bending through a series of finite-element (FE) simulations. The FE model employs well-established constitutive relations of concrete and steel with a simplified contact condition between the concrete and steel truss. The numerical model is compared with existing experimental data as well as a FE model that uses a more sophisticated concrete-steel interfacial model. The comparison shows that the present model is able to capture various failure mechanisms of the beam and its peak load capacity. The model is applied to investigate the behavior of a set of HSTCBs of different sizes, whose design corresponds to current industrial practice. The simulations show that, due to the lack of three-dimensional geometrical similarity, the small-size beam exhibits shear failure, whereas the large-size beam experiences flexural failure. The observed transition between different failure modes indicates the importance of employing a robust three-dimensional FE model for design extrapolation of HSTCBs across different sizes and geometries.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2017-08-01 | Journal of Structural Engineering |