Thermo-structural analysis of reinforced concrete beams.
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Data
2019
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Resumo
The objective of this study is to simulate the behavior of reinforced concrete
beams in fire situation. In order to achieve
this objective, advanced numerical formulations were developed, implemented and
evaluated. When exposed to high temperatures, the properties of the material deteriorate, resulting in the loss of strength and
stiffness. To achieve the goal, two new
modules within the Computational System
for Advanced Structural Analysis were created: Fire Analysis and Fire Structural
Analysis. The first one aims to determine
the temperature field in the cross section of
structural elements through thermal analysis by using the Finite Element Method
(FEM). The second was designed to perform the second-order inelastic analysis of
structures under fire using FEM formulations based on the Refined Plastic Hinge
Method coupled with the Strain
Compatibility Method. The results obtained
of the nonlinear analyses of two reinforced
concrete beams under high temperature
were compared with the numerical and
experimental solutions available in literature and were highly satisfactory. These
results also showed that the proposed
numerical approach can be used to study the
progressive collapse of other reinforced
concrete structures in fire situation and
extended to the numerical analysis of composite structures under fire condition.
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Palavras-chave
Thermal analysis, Fire, Finite Element Method, Computational System for Advanced Structural Analysis
Citação
MAXIMIANO, D. P. et al. Thermo-structural analysis of reinforced concrete beams. Fire Research, v. 3, n. 1, p. 25-31, 2019. Disponível em: <https://pagepress.org/technology/index.php/fire/article/view/74>. Acesso em: 10 mar. 2020.