Fernando Busato Ramires scite author profile

A avaliação de estruturas existentes em concreto armado e posterior planejamento de intervenções requer conhecimentos específicos provindos de diferentes fontes e áreas técnicas. O processo de análise e simulação computacional que auxilia o diagnóstico da estrutura e seu processo de reabilitação deve ser calibrado por meio do uso de dados obtidos via inspeção sistemática e rigorosa que leve em consideração as condições de exposição e deterioração presentes na mesma. O presente artigo apresenta uma proposta de metodologia que abrange as diferentes fases consideradas na avaliação estrutural de estruturas existentes de concreto armado desde a fase inicial de diagnóstico e inspeção até a avaliação dos níveis de segurança e durabilidade, obtidos via simulação computacional, para tomada de decisão com relação ao tipo de intervenção a ser realizada. Um estudo de caso com uma avaliação de uma estrutura existente em concreto armado com presença de um processo de deterioração em andamento é mostrado e seus principais aspectos analisados. Os resultados obtidos nos campos de deslocamentos e esforços, modificados pelo processo de deterioração, demostram a eficácia da metodologia proposta e seu auxílio no processo de tomada de decisão com relação a reabilitação.Palavras-chave: recuperação de estruturas, durabilidade, concreto armado.

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An experimental appraisal of composite joint components

Rodrigues

Andrade

Lima

et al. 2018

Proceedings of the Institution of Civil Engineers - Structures

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The component method incorporated in Eurocodes 3 and 4 is one of the most accepted models for composite semi-rigid beam-to-column joint design. This method explicitly considers the contribution of the components with the most relevant composite action, such as reinforcing bars, concrete and shear connectors. This was the main motivation to further improve the assumptions employed in the structural response of composite joints to surpass the current limits of its adoption in hogging moment regions. However, in hogging moment regions the concrete slab is not under compression forces, leading to extensive concrete cracking, which can influence the actual structural joint response. An alternative set-up, namely, pull-out tests, was developed to better represent composite joints where tension forces act in the concrete slab. The overall results served as the main basis for a better understanding of some of the components present in composite joints, enabling a better formulation for their design capacities. The present paper focuses on a series of pull-out tests that presented failure modes associated with a tensile reinforcing bar rupture or anchorage capacity. The test results enabled a better understanding of the reinforcing bar failure modes and their relevance over the global beam-to-column joints' structural response.

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Composite Semi-Rigid Joints Optimization with Genetic Algorithms

Ramires¹,

Andrade²,

Vellasco³

et al.

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Experimental assessment of the composite joints shear connector component

Rodrigues

Andrade

Lima

et al. 2017

Journal of Constructional Steel Research

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