Expected maximum moment of multi-spiral columns
Journal
Engineering Structures
Journal Volume
249
Date Issued
2021
Author(s)
Abstract
Three methods to estimate the expected maximum moment of multi-spiral columns were investigated. The methods include the ACI 318 method, the AASHTO 1.3 Mn method and a method based on the Caltrans SDC method modified for the unique characteristics of the confinement effect from multi-spiral reinforcement. A test database consisting of 21 multi-spiral columns was established. Comparison with test results show that the ACI 318 method is unconservative for most of the multi-spiral columns examined. The AASHTO 1.3 Mn method performs better than the ACI 318 method but is still unconservative for several columns examined. For the two methods to be conservative for the columns examined, the result from the ACI 318 method and that from the AASHTO 1.3 Mn method need to be multiplied by a factor of 1.45 and 1.19, respectively. In contrast, the modified Caltrans SDC method is conservative for all the multi-spiral columns examined. A further investigation into the effect of the axial load on the expected maximum moment shows that the AASHTO 1.3 Mn method is applicable when the axial load is lower than approximately 0.34 times the axial strength at the balanced strain condition. More tests are needed to validate the applicability of the modified Caltrans SDC method to multi-spiral columns with axial loads higher than the axial strength at the balanced strain condition. ? 2021
Subjects
Capacity design
Maximum probable moment
Moment-curvature analysis
Overstrength moment
P-M interaction
Seismic
Seismic design
Axial strength
Maximum moments
Moment curvature analysis
Overstrength
Spiral column
Strain conditions
Axial loads
column
database
loading
reinforcement
seismicity
strength
SDGs
Type
journal article