Assessment of steel reinforcement ratios of concrete walls for energy dissipation categories defined by nsr-10 code

Authors

  • Miguel Prada Sánchez Departamento de Universidad Militar Nueva Granada, UMNG
  • Julian Carrillo León Departamento de Universidad Militar Nueva Granada, UMNG http://orcid.org/0000-0002-8274-5414
  • César Gélvez MARVAL S.A

DOI:

https://doi.org/10.22395/rium.v16n30a2

Keywords:

concrete walls, steel reinforcement, special boundary element

Abstract

Most structural engineers in Colombia are interested in assessing the variation of reinforcement quantities of concrete walls when designed for fulfilling requirements of categories of energy dissipation, higher than those required by nsr-10. This paper compares and discusses the steel reinforcement ratios obtained from the design of reinforced concrete walls of two housing buildings having an industrialized construction system. The two buildings have different number of stories, were designed based on different categories of seismic behavior, and are located in different seismic hazard zones. Results obtained in this study demonstrated that, for high-rise building located in intermediate seismic hazard zone and using design displacements close to the allowable drift ratio, savings in the reinforcement quantities can be obtained when structural design is carried out using requirements of des category instead of those of dmo category.

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Author Biographies

Miguel Prada Sánchez, Departamento de Universidad Militar Nueva Granada, UMNG

Ing. civil, Asistente de Investigación Grupo de Investigación Estructuras y Sísmica Facultad de ingeniería, Universidad Militar Nueva Granada, Bogotá, Colombia. Dirección electrónica: asistente2.estructuras.sismica@unimilitar.edu.co.

Julian Carrillo León, Departamento de Universidad Militar Nueva Granada, UMNG

Ing. civil, Ph.D, profesor asociado, Departamento de Ingeniería Civil, Director del Grupo de Investigación Estructuras y Sísmica, Facultad de Ingeniería, Universidad Militar Nueva Granada, Bogotá, Carrera 11 No. 101-80, Colombia. Dirección electrónica: wjcarrillo@gmail.com.

César Gélvez, MARVAL S.A

Ing. Civil, Ms.C, Director Nacional de Diseño MARVAL S.A. Bucaramanga, Colombia. Dirección electrónica: cgelvez@marval.com.co.

References

[1] S. L. Uribe et al., Influencia en la variación de la respuesta estructural y cuantías de diseño de una edificación con sistema muros de carga para una zona de amenaza sísmica baja e intermedia al modificar los requisitos mínimos de disipación de energía, presentado en XXIV Congreso Nacional y XIII Congreso Internacional de estudiantes y profesionales de Ingeniería Civil, Bogotá, 2014.

[2] Comisión Asesora Permanente para el Régimen de Construcciones Sismo Resistentes, Reglamento Colombiano de Construcción Sismo Resistente, NSR-10., Ministerio de Ambiente, Vivienda y Desarrollo Territorial, 2010.

[3] Alcaldía Mayor de Bogotá, Microzonificación Sísmica de Bogotá D.C., Decreto No. 523 de 16 Dic. 2010.

[4] F. Mayagoitia et al., Construcción de vivienda con sistemas industrializados de muros en concreto, Bogotá, ASOCRETO, 2010, pp. 109.

[5] J. Carrillo et al., “A review of conceptual transparency in US and Colombian seismic design building codes.” Ingeniería e Investigación, 33(2): pp. 24-29, 2013.

[6] J. C. McCormac y L.K Nelson, Design of Reinforced Concrete., USA, John Wiley & Sons, Inc; pp. 721, 2006.

[7] J.P Moehle et al., “Seismic design of cast-in-place concrete special structural walls and coupling beams”, NEHRP Seismic Design Technical Brief, pp. 33, 2012.

[8] M.A. Hube et al., “Seismic behavior of slender reinforced concrete walls”. Engineering Structures, 80: pp. 377-388, 2014.

[9] C. Alarcon et al., “Effect of axial loads in the seismic behavior of reinforced concrete walls with unconfined wall boundaries”. Engineering Structures, 73: pp. 13-23, 2014.

[10] L.M Massone y E.E. López, “Modeling of reinforcement global buckling in RC elements”, Engineering Structures, 59: pp. 484-494, 2014.

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Published

2017-05-10

How to Cite

Prada Sánchez, M., Carrillo León, J., & Gélvez, C. (2017). Assessment of steel reinforcement ratios of concrete walls for energy dissipation categories defined by nsr-10 code. Revista Ingenierías Universidad De Medellín, 16(30), 29–47. https://doi.org/10.22395/rium.v16n30a2

Issue

Vol. 16 No. 30 (2017)

Section

Articles

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The total or partial reproduction of the contents of the journal for educational, research, or academic purposes is authorized as long as the source is cited. For reproduction for other purposes, express authorization from the Sello Editorial Universidad de Medellín is required.