John Mario García Giraldo scite author profile

A series of direct shear tests were carried out in order to characterize the pile–soil interface strength for various pile materials including steel, concrete, and grout and to investigate the influence of fiber-reinforced polymer (FRP) materials on the pile–soil interface strength in soft clay. The study investigated both pile–soil interface friction and interface adhesion by simulating drained and undrained conditions. The results among the traditional pile materials indicated the superior performance of grout and concrete relative to steel. FRP interfaces were shown to perform at a level the same as or higher than that of traditional steel piling under both drained and undrained conditions in clays. The FRP–clay interface friction angles were 5 % to 19 % greater than those in traditional steel–clay interfaces and 12 % to 23 % smaller than that of concrete. In addition, FRP interface adhesion was observed at between 86 % and 135 % of the interface adhesion of steel and between 65 % and 75 % of the interface adhesion of concrete.

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Modelo Analítico del Comportamiento a Compresión de Bloques Huecos de Concreto

Giraldo

Diaz²,

Araya

2013

Revista de la Construcción

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Resumen El desempeño estructural de la albañilería está relacionado directamente con las propiedades mecánicas de sus materiales constituyentes. Uno de los principales parámetros que controlan el comportamiento de este sistema, es la resistencia a la compresión de la unidad. Sin embargo, para la modelación numérica de la albañilería se emplean modelos simplificados elásticos-lineales recomendados por los códigos de diseño, los cuales no permiten establecer adecuadamente el comportamiento real de este material, generando altas incertidumbres en sus desplazamientos. Los métodos modernos de diseño se basan en el control de desplazamientos, siendo esta una de las principales variables que condicionan su desempeño estructural. Para ello, es fundamental conocer las leyes constitutivas de los principales elementos que conforman la albañilería. En este trabajo se ha desarrollado un modelo constitutivo para determinar el comportamiento de bloques de concreto a partir de la correlación entre algunos modelos constitutivos del hormigón y los resultados de una evaluación experimental en 90 bloques aligerados de concreto liviano, clasificados en dos grupos acorde a su nivel de resistencia (10MPa y 30MPa). Los resultados obtenidos permiten identificar que los modelos que involucran dentro de sus parámetros la resistencia del bloque, son los que mejor se ajustan a los resultados experimentales.

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The fourth industrial revolution, an opportunity for Civil Engineering

Giraldo

Palacio

2020

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Comportamiento a flexión de elementos de albañilería postensada sin relleno de grouting

Giraldo¹

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