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dc.contributor.authorPulatsu, B.pt_BR
dc.contributor.authorErdogmus, E.pt_BR
dc.contributor.authorLourenço, P.pt_BR
dc.contributor.authorLemos, J. V.pt_BR
dc.description.abstractThis study presents a numerical investigation on the fracture mechanism of tension stiffening phenomenon in reinforced concrete members. A novel approach using the discrete element method (DEM) is proposed, where three-dimensional randomly generated distinct polyhedral blocks are used, representing concrete and one-dimensional truss elements are utilized, representing steel reinforcements. Thus, an explicit representation of reinforced concrete members is achieved, and the mechanical behavior of the system is solved by integrating the equations of motion for each block using the central difference algorithm. The inter-block interactions are taken into consideration at each contact point with springs and cohesive frictional elements. Once the applied modeling strategy is validated, based on previously published experimental findings, a sensitivity analysis is performed for bond stiffness, cohesion strength, and the number of truss elements. Hence, valuable inferences are made regarding discontinuum analysis of reinforced concrete members, including concrete–steel interaction and their macro behavior. The results demonstrate that the proposed phenomenological modeling strategy successfully captures the concrete–steel interaction and provides an accurate estimation of the macro behavior.pt_BR
dc.subjectDEM · Discontinuum analysis · Tension stiffening · Contact mechanicspt_BR
dc.titleNumerical modeling of the tension stiffening in reinforced concrete members via discontinuum modelspt_BR
dc.description.magazineComputational Particle Mechanicspt_BR
Appears in Collections:DBB/NMMR - Comunicações a congressos e artigos de revista

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