Carlos Recarey scite author profile

Carlos Recarey

2Publications

17Citation Statements Received

60Citation Statements Given

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Affiliations

Central University of Las Villas, Numerical Method (China), University of Brasília

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Modelación numérica con validación experimental aplicada al estudio del comportamiento de conectores tipo perno de estructuras compuestas de hormigón y acero

et al. 2015

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Resumen En este trabajo se realiza un estudio del comportamiento de conectores tipo perno de estructuras compuestas de hormigón y acero mediante la simulación numérica del ensayo push out en sección viga-losa maciza de hormigón. Se analiza el comportamiento de los materiales en régimen no lineal, empleándose en un primer caso un modelo bilineal con criterio de rotura de Von Mises para el acero y el hormigón, y en un segundo caso un Modelo de Daño Plástico para el hormigón. Como herramienta para la modelación numérica se emplea el programa computacional ABAQUS. Se aborda el procedimiento metodológico de modelación numérica del ensayo de conectores. Se observa una buena correspondencia existente entre los resultados numéricos y experimentales, evidenciándose la efectividad del uso del Método de Elementos Finitos para el estudio del comportamiento de conectores. Finalmente, respaldado por los estudios numéricos y experimentales, se realiza una valoración de precisión en la estimación de la capacidad resistente de los conectores obtenida a partir de las normativas: AISC-LRFD (2005), Eurocódigo 4 (2004) y la Normativa Ramal Cubana NR-080-2004, observando que dichas normativas sobreestiman este valor en muchos casos. Palabras claves: Estructuras compuestas, conectores perno, simulación numérica, método de elementos finitos, modelo de daño plástico.

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Advances in particle packing algorithms for generating the medium in the Discrete Element Method

Recarey

Pérez

Roselló

et al. 2019

Computer Methods in Applied Mechanics and Engineering

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Several theoretical contributions in order to establish a particle packing methodology are presented. In this respect, a generic formulation of a new method for packing particles based on a constructive advancing front method, which uses Monte Carlo techniques for the generation of particle dimensions, is also shown. The method can be used to obtain virtual dense packings of particles with several geometrical shapes. It employs continuous, discrete and empirical statistical distributions in order to generate the dimensions of particles. The packing algorithm is very flexible and allows alternatives for: 1-The direction of the advancing front (inwards or outwards), 2-The selection of the local advancing front, 3-The method for placing a mobile particle in contact with others and 4-The overlap checks. The algorithm also allows obtaining highly porous media when it is slightly modified. Practical applications of the formulations are presented in the end of this paper.

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Carlos Recarey

Modelación numérica con validación experimental aplicada al estudio del comportamiento de conectores tipo perno de estructuras compuestas de hormigón y acero

Advances in particle packing algorithms for generating the medium in the Discrete Element Method

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