Optimización de pasarelas peatonales de sección en cajón y hormigón de alta resistencia

Acaban de publicarnos un artículo en la revista International Journal of Computational Methods and Experimental Measurements un artículo en el que optimizamos pasarelas peatonales de sección en cajón y hormigón de alta resistencia. Se trata de una publicación en abierto, por lo que os dejamos a continuación el artículo completo para su lectura y descarga.

ABSTRACT:

This paper deals with the economic optimization of high-performance post-tensioned concrete box-girder pedestrian bridges. To this end, a program analyzes and evaluates the structural restrictions following Spanish codes for structural concrete and bridge design loads. This problem includes 33 discrete design variables that define the geometry, the concrete, the reinforcing steel bars and the post-tensioned steel. Various acceptance criteria are proposed to modify a variant of the simulated annealing algorithm with a neighborhood move based on the mutation operator from the genetic algorithms (SAMO). An objective methodology based on the extreme value theory is used to determine the number of experimental tests required to provide a solution with user-defined accuracy as compared to a global optimum solution. Results indicate that the local optima found by SAMO2 fits a three parameter Weibull distribution and improves the cost results for this structural problem. The minimum value obtained by SAMO2 differed just 0.34% compared to the theoretical minimum value so that, from the structural engineering perspective, the divergence was small enough to be accepted. High strength concrete performance was further studied in a concrete strength parametric study to acquire more evidence-based knowledge on its implications for economic efficiency. Finally, the study showed that high-strength concrete decreases the cost by 4.5% and the amount of concrete by 26%.

KEYWORDS:

Box-girder bridge, extreme value theory, high-strength concrete, post-tensioned concrete, simulated annealing, Structural optimization

REFERENCE:

YEPES, V.; PÉREZ-LÓPEZ, E.; GARCÍA-SEGURA, T.; ALCALÁ, J. (2019). Optimization of high-performance concrete post-tensioned box-girder pedestrian bridges. International Journal of Computational Methods and Experimental Measurements, 7(2):118-129. DOI: 10.2495/CMEM-V7-N2-118-129

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