An analytical approach to determine the need to provide transverse reinforcement at boundaries of reinforced concrete structural walls with rectangular, T‐shaped, or barbell‐shaped cross sections is presented. By relating the expected displacement demands on the building system to the local deformations imposed on the wall cross section, the magnitude and distribution of wall normal strain is determined. The primary variables affecting the wall‐strain distribution are found to be the ratio of wall cross‐sectional area to the floor‐plan area, the wall aspect ratio and configuration, the wall axial load, and the wall‐reinforcement ratios. Based on the computed wall‐strain distribution, required transverse steel for concrete confinement and length of the wall cross section requiring concrete confinement is computed. The wall‐strain distribution is also used to evaluate required transverse reinforcement to restrain buckling of longitudinal reinforcement. The validity of the proposed analytical approach is dem...
[1]
Jack P. Moehle,et al.
An Evaluation of Ductility and Detailing Requirements of Bearing Wall Buildings Using Data from the March 3, 1985, Chile Earthquake
,
1993
.
[2]
R. Sharpe.
Tentative Provisions for the Development of Seismic Regulations for Buildings
,
1994
.
[3]
S. Mau.
EFFECT OF TIE SPACING ON INELASTIC BUCKLING OF REINFORCING BARS
,
1990
.
[4]
Jack P. Moehle,et al.
Ductility and Detailing Requirements of Bearing Wall Buildings
,
1992
.
[5]
Vitelmo V. Bertero,et al.
RC Structural Walls: Seismic Design for Shear
,
1985
.
[6]
Thomas Paulay,et al.
The Design of Ductile Reinforced Concrete Structural Walls for Earthquake Resistance
,
1986
.