A Cyclic Backbone Curve for Shear-Critical Reinforced Concrete Walls

Siamak Epackachi; Nikhil Sharma; Andrew Whittaker; Ronald O. Hamburger; Ayse Hortacsu

doi:10.1061/(ASCE)ST.1943-541X.0002277

A Cyclic Backbone Curve for Shear-Critical Reinforced Concrete Walls

Siamak Epackachi
, Nikhil Sharma
, Andrew Whittaker
, Ronald O. Hamburger
, Ayse Hortacsu

Department of Civil, Structural & Environmental Engineering

Amirkabir University of Technology
Indian Institute of Technology Gandhinagar
Simpson Gumpertz and Heger, Inc.
Applied Technology Council

Research output: Contribution to journal › Article › peer-review

21 Scopus citations

Abstract

Backbone curves are used in seismic design standards as the basis for developing component models for nonlinear static and dynamic analysis. Herein, data from 240 tests of rectangular, barbell, and flanged shear-critical walls are assembled and analyzed to develop an improved cyclic backbone curve for use in nonlinear response-history analysis. Values of drift ratio and normalized lateral force at the control points on the cyclic backbone curve are identified. The effects of design parameters, including wall aspect ratio, axial load, day-of-test concrete compressive strength, vertical and horizontal web reinforcement ratio, reinforcement ratio in the boundary elements, and yield strength of reinforcement, on the coordinates of the control points are addressed. The accuracy of equations for peak shear strength is assessed using the collected test data.

Original language	English
Article number	04019006
Journal	Journal of Structural Engineering (United States)
Volume	145
Issue number	4
DOIs	https://doi.org/10.1061/(ASCE)ST.1943-541X.0002277
State	Published - Apr 1 2019

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title = "A Cyclic Backbone Curve for Shear-Critical Reinforced Concrete Walls",

abstract = "Backbone curves are used in seismic design standards as the basis for developing component models for nonlinear static and dynamic analysis. Herein, data from 240 tests of rectangular, barbell, and flanged shear-critical walls are assembled and analyzed to develop an improved cyclic backbone curve for use in nonlinear response-history analysis. Values of drift ratio and normalized lateral force at the control points on the cyclic backbone curve are identified. The effects of design parameters, including wall aspect ratio, axial load, day-of-test concrete compressive strength, vertical and horizontal web reinforcement ratio, reinforcement ratio in the boundary elements, and yield strength of reinforcement, on the coordinates of the control points are addressed. The accuracy of equations for peak shear strength is assessed using the collected test data.",

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AU - Hortacsu, Ayse

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N2 - Backbone curves are used in seismic design standards as the basis for developing component models for nonlinear static and dynamic analysis. Herein, data from 240 tests of rectangular, barbell, and flanged shear-critical walls are assembled and analyzed to develop an improved cyclic backbone curve for use in nonlinear response-history analysis. Values of drift ratio and normalized lateral force at the control points on the cyclic backbone curve are identified. The effects of design parameters, including wall aspect ratio, axial load, day-of-test concrete compressive strength, vertical and horizontal web reinforcement ratio, reinforcement ratio in the boundary elements, and yield strength of reinforcement, on the coordinates of the control points are addressed. The accuracy of equations for peak shear strength is assessed using the collected test data.

AB - Backbone curves are used in seismic design standards as the basis for developing component models for nonlinear static and dynamic analysis. Herein, data from 240 tests of rectangular, barbell, and flanged shear-critical walls are assembled and analyzed to develop an improved cyclic backbone curve for use in nonlinear response-history analysis. Values of drift ratio and normalized lateral force at the control points on the cyclic backbone curve are identified. The effects of design parameters, including wall aspect ratio, axial load, day-of-test concrete compressive strength, vertical and horizontal web reinforcement ratio, reinforcement ratio in the boundary elements, and yield strength of reinforcement, on the coordinates of the control points are addressed. The accuracy of equations for peak shear strength is assessed using the collected test data.

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A Cyclic Backbone Curve for Shear-Critical Reinforced Concrete Walls

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