Stress Limit for Shear Reinforcement of High-Strength Columns
Journal
ACI Structural Journal
Journal Volume
119
Journal Issue
1
Pages
131-141
Date Issued
2022
Author(s)
Abstract
Ten shear-critical high-strength columns with a shear span to effective depth ratio of 2.5 were tested using lateral cyclic loading. Test results showed that the use of high-strength shear reinforcement with fyt of 854 to 867 MPa (123,860 to 125,750 psi) generally increased the shear strength of the column and decreased strength degradation after the peak applied shear. However, the increase of shear strength was lower than that calculated based on the fyt. This was likely due to the fact that most of the high-strength shear reinforcement did not yield at the peak applied shear. The new ACI 318-19 shear strength equations were examined using the test data from this research and others. The shear strength equations with the stress limit for shear reinforcement set equal to 600 MPa (87,000 psi) were found to be conservative for high-strength shear reinforcement and showed a safety level for high-strength shear reinforcement similar to normal-strength reinforcement. Copyright ? 2022, American Concrete Institute. All rights reserved,
Subjects
Axial compression
Columns
Cyclic loading
High-strength concrete
High-strength reinforcement
Shear strength
High performance concrete
Reinforcement
Stress analysis
Effective depth
High strength concretes
High-strength
High-strength reinforcements
Shear critical
Shear reinforcement
Shear span
Shears strength
Strength equations
Stress limits
Cyclic loads
SDGs
Type
journal article