Abstract

BENJUMEA ROYERO, José Miguel; SOTELO MONROY, Fredy Saúl; CELIS MELO, Camilo Eduardo  and  CHIO CHO, Gustavo. Effect of the selected seismic energy dissipation capacity on the materials quantity for reinforced concrete walls. Tecnura [online]. 2016, vol.20, n.50, pp.15-28. ISSN 0123-921X.  https://doi.org/10.14483/udistrital.jour.tecnura.2016.4.a01.

ABSTRACT Context: Regarding their design of reinforced concrete structural walls, the Colombian seismic design building code allows the engineer to select one of the three seismic energy dissipation capacity (ordinary, moderate, and special) depending on the seismic hazard of the site. Despite this, it is a common practice to choose the minor requirement for the site because it is thought that selecting a higher requirement will lead to larger structural materials amounts and, therefore, cost increments. Method: In this work, an analytical study was performed in order to determine the effect of the selected energy dissipation capacity on the quantity of materials and ductility displacement capacity of R/C walls. The study was done for a region with low seismic hazard, mainly because this permitted to explore and compare the use of the three seismic energy dissipations capacities. The effect of different parameters such as the wall total height and thickness, the tributary loaded area, and the minimum volumetric steel ratio were studied. Results: The total amount of steel required for the walls with moderate and special energy dissipation capacity corresponds, on average, to 77% and 89%, respectively, of the quantity required for walls with minimum capacity. Conclusions: it is possible to achieve reductions in the total steel required weight when adopting either moderated or special seismic energy dissipation instead of the minimum capacity. Additionally, a significant increment in the seismic ductility displacements capacity of the wall was obtained.

Keywords : Boundary elements; Displacement ductility capacity; Energy Dissipation Capacity; Low Seismic Regions; Quantity of materials; RC Walls.

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