EM - Escola de Minas
URI permanente desta comunidadehttp://www.hml.repositorio.ufop.br/handle/123456789/6
Notícias
A Escola de Minas de Ouro Preto foi fundada pelo cientista Claude Henri Gorceix e inaugurada em 12 de outubro de 1876.
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4 resultados
Resultados da Pesquisa
Item Influence of cooling methods on the residual mechanical behavior of fire-exposed concrete : an experimental study.(2019) Carvalho, Espedito Felipe Teixeira de; Silva Neto, João Trajano da; Soares Junior, Paulo Roberto Ribeiro; Maciel, Priscila de Souza; Fransozo, Helder Luis; Bezerra, Augusto Cesar da Silva; Gouveia, Antônio Maria Claret deThis work reports the main conclusions of a study on the mechanical behavior of concrete under ISO 834 fire with different cooling methods. The aim of this research was to provide reliable data for the analysis of structures damaged by fire. The experimental program used cylindrical concrete test specimens subjected to ISO 834 heating in a furnace up to maximum gas temperatures of 400, 500, 600, 700, and 800 ◦C. The compressive strength was measured in three situations: (a) at the different temperature levels reached in the furnace; (b) after a natural cooling process; and (c) after aspersion with water at ambient temperature. The results indicate that the concrete residual compressive strength is fairly dependent on the maximum temperature reached in the furnace and revealed that concrete of a lower strength preserved relatively higher levels of strength. The cooling method significantly influenced the strength, albeit at a lower intensity. In all cases, the residual strength remained in the range of 38% to 67% of the strength at ambient temperature. The statistical analysis showed that the data obtained by the experimental program are significant and confirmed the influence of the conditions imposed on the residual strength.Item Influence of cooling methods on the residual mechanical behavior of fire-exposed concrete : an experimental study.(2019) Carvalho, Espedito Felipe Teixeira de; Silva Neto, João Trajano da; Soares Junior, Paulo Roberto Ribeiro; Maciel, Priscila de Souza; Fransozo, Hélder Luís; Bezerra, Augusto Cesar da Silva; Gouveia, Antônio Maria Claret deThis work reports the main conclusions of a study on the mechanical behavior of concrete under ISO 834 fire with different cooling methods. The aim of this research was to provide reliable data for the analysis of structures damaged by fire. The experimental program used cylindrical concrete test specimens subjected to ISO 834 heating in a furnace up to maximum gas temperatures of 400, 500, 600, 700, and 800 ◦C. The compressive strength was measured in three situations: (a) at the different temperature levels reached in the furnace; (b) after a natural cooling process; and (c) after aspersion with water at ambient temperature. The results indicate that the concrete residual compressive strength is fairly dependent on the maximum temperature reached in the furnace and revealed that concrete of a lower strength preserved relatively higher levels of strength. The cooling method significantly influenced the strength, albeit at a lower intensity. In all cases, the residual strength remained in the range of 38% to 67% of the strength at ambient temperature. The statistical analysis showed that the data obtained by the experimental program are significant and confirmed the influence of the conditions imposed on the residual strength.Item Influence of cooling methods on the residual mechanical behavior of fire-exposed concrete : an experimental study.(2019) Carvalho, Espedito Felipe Teixeira de; Silva Neto, João Trajano da; Soares Junior, Paulo Roberto Ribeiro; Maciel, Priscila de Souza; Fransozo, Hélder Luís; Bezerra, Augusto Cesar da Silva; Gouveia, Alberto Frederico Vieira de SousaThis work reports the main conclusions of a study on the mechanical behavior of concrete under ISO 834 fire with different cooling methods. The aim of this research was to provide reliable data for the analysis of structures damaged by fire. The experimental program used cylindrical concrete test specimens subjected to ISO 834 heating in a furnace up to maximum gas temperatures of 400, 500, 600, 700, and 800 °C. The compressive strength was measured in three situations: (a) at the different temperature levels reached in the furnace; (b) after a natural cooling process; and (c) after aspersion with water at ambient temperature. The results indicate that the concrete residual compressive strength is fairly dependent on the maximum temperature reached in the furnace and revealed that concrete of a lower strength preserved relatively higher levels of strength. The cooling method significantly influenced the strength, albeit at a lower intensity. In all cases, the residual strength remained in the range of 38% to 67% of the strength at ambient temperature. The statistical analysis showed that the data obtained by the experimental program are significant and confirmed the influence of the conditions imposed on the residual strength.Item Contribuição ao estudo da resistência residual do concreto submetido ao tratamento térmico padrão para situações de incêndio.(2001) Carvalho, Espedito Felipe Teixeira de; Gouveia, Antônio Maria Claret deEste trabalho é iniciado com uma análise do efeito do calor na estrutura do concreto; em seguida, é apresentada uma leitura das principais pesquisas publicadas recentemente sobre o concreto em altas temperaturas. Da parte experimental, é feita a descrição de toda a montagem do ensaio, incluindo, curva padrão ISO, forno, disposição dos corpos de prova e medidores de temperatura. Contém, ainda, o planejamento da pesquisa com o resumo do total de corpos de prova para a execução do programa experimental. Devido a importantes adaptações realizadas, optou-se por apresentar todo o processo de dosagem experimental dos concretos utilizados na pesquisa. Os critérios de ensaio, as curvas tempo-temperatura de cada ensaio e os resultados obtidos são apresentados de variadas maneiras. Dando prosseguimento, um necessário tratamento estatístico ajuda a analisar esses mesmos resultados. Finalmente, as curvas Resistência Residual x Temperatura são apresentadas e discutidas, encerrando o trabalho.