Modelos numéricos de vigas mistas de aço e concreto pertencentes a sistemas de pisos mistos de pequena altura em situação de incêndio
Data
2017-11-15
Autores
Título da Revista
ISSN da Revista
Título de Volume
Editor
Biblioteca Digital de Teses e Dissertações da USP
Universidade de São Paulo
Escola de Engenharia de São Carlos
Universidade de São Paulo
Escola de Engenharia de São Carlos
Resumo
Descrição
Os pisos mistos de baixa altura caracterizam um sistema estrutural em que há a incorporação, parcial ou completa, do perfil metálico (viga de aço) na laje de concreto, promovendo a redução da altura da seção e, consequentemente, o aumento da altura útil do pavimento. A incorporação do perfil de aço na laje de concreto garante revestimento ao aço contra o fogo, melhorando o desempenho da viga de aço frente às ações do fogo. Com a finalidade de avaliar o desempenho térmico e estrutural desta solução construtiva, foram desenvolvidos modelos numéricos das vigas parcialmente revestidas presentes nesse sistema estrutural em duas etapas distintas: Na primeira é realizada a análise térmica bidimensional no pacote computacional DIANA para a obtenção dos campos térmicos nas seções transversais das vigas em questão e, a partir daí, considerá-los em um processador de cálculo de momentos plásticos resistentes em todo o intervalo de tempo analisado, sendo então possível avaliar a perda da capacidade portante da seção em função do tempo de exposição ao fogo. A segunda etapa consiste na criação de modelos numéricos tridimensionais em elementos finitos no pacote computacional DIANA, com o qual é possível obter o comportamento estrutural da viga mista de aço e concreto quando exposta ao incêndio padrão, considerando então os efeitos relativos à inclusão do gradiente de temperatura tais como a perda das propriedades mecânicas, a expansão e a interação entre os materiais. Tendo em vista as funcionalidades do código computacional DIANA, diversos modelos foram construídos procurando atingir a melhor aproximação com os resultados experimentais apresentados na literatura associados ao menor custo computacional possível. Dessa forma, foram analisados casos com (1) interação parcial e total entre o aço e o concreto e com (2) diferentes modelos constitutivos para os materiais em questão. Por fim, os resultados obtidos com a análise numérica a partir do DIANA são comparados com os do método dos momentos plásticos, que por sua vez, apresentam um custo computacional bastante reduzido
Slim floor frames consists on structural system in which the steel beam is completely or partially inserted in a concrete slab, that is usually used in profiled steel decks systems. The main goal of the slim floor systems is to obtain a minimum height of the composite beam section and, consequently, achieve a higher height of the floor or a lower total height of the building. The partial encasement of the steel beam in the concrete slab provides a thermal protection, improving the behavior of the beam when subjected to fire. In order to evaluate the thermal and structural behavior of the slim floor system, numerical models considering partially encased beams, which can be found in the slim floor structures, were created. The numerical evaluation procedure was divided in two steps. In the first step, a two-dimensional thermal analysis is carried out using the general finite-element software TNO DIANA to obtain the temperatures gradient in the cross section during the fire exposure time and then, use the data in a computational code developed in FORTRAN which calculates the bearing capacity, over the exposure time, of the slim floor beams by means of the plastic moment capacity method, using the reduction factors associated to the mechanical properties of the materials presented in Eurocode 4. The second step consists in to develop three-dimensional numerical models using the software TNO DIANA and then obtain the complete structural behavior of the beam when subjected to a fire condition. Another aspect related to the loss of mechanical properties was also considered, such as the thermal expansion and the interaction between the steel and the concrete. In view of the DIANA functions, several models were developed in order to achieve a better approximation, a low computational cost, of some tests results presented in wide world literature. The cases of partial and complete interaction between the materials were analyzed, as well as the different constitutive models for them, so that the results obtained at the two steps were compared, and an evaluation of the methods was done
Slim floor frames consists on structural system in which the steel beam is completely or partially inserted in a concrete slab, that is usually used in profiled steel decks systems. The main goal of the slim floor systems is to obtain a minimum height of the composite beam section and, consequently, achieve a higher height of the floor or a lower total height of the building. The partial encasement of the steel beam in the concrete slab provides a thermal protection, improving the behavior of the beam when subjected to fire. In order to evaluate the thermal and structural behavior of the slim floor system, numerical models considering partially encased beams, which can be found in the slim floor structures, were created. The numerical evaluation procedure was divided in two steps. In the first step, a two-dimensional thermal analysis is carried out using the general finite-element software TNO DIANA to obtain the temperatures gradient in the cross section during the fire exposure time and then, use the data in a computational code developed in FORTRAN which calculates the bearing capacity, over the exposure time, of the slim floor beams by means of the plastic moment capacity method, using the reduction factors associated to the mechanical properties of the materials presented in Eurocode 4. The second step consists in to develop three-dimensional numerical models using the software TNO DIANA and then obtain the complete structural behavior of the beam when subjected to a fire condition. Another aspect related to the loss of mechanical properties was also considered, such as the thermal expansion and the interaction between the steel and the concrete. In view of the DIANA functions, several models were developed in order to achieve a better approximation, a low computational cost, of some tests results presented in wide world literature. The cases of partial and complete interaction between the materials were analyzed, as well as the different constitutive models for them, so that the results obtained at the two steps were compared, and an evaluation of the methods was done
Palavras-chave
Análise térmica, Pisos mistos de aço e concreto, Vigas mistas de aço e concreto, Modelagem numérica, Incêndio, Fire, Composite beam, Slim floor, Thermal analysis, Numerical modeling