Title:
Experimental Study on Column Reinforcing Bar Anchorage in Drilled Shaft Footings
Author(s):
Y. Yi, H. Kim, R. A. Boehm, Z. D. Webb, J. Choi, J. Murcia-Delso, T. D. Hrynyk, and O. Bayrak
Publication:
Structural Journal
Volume:
120
Issue:
4
Appears on pages(s):
191-206
Keywords:
bar anchorage; bond; critical section; development length; drilled shaft footing; large-scale tests; strut-and-tie method
DOI:
10.14359/51738721
Date:
7/1/2023
Abstract:
This paper presents an experimental study on the anchoragebehavior of column reinforcement subjected to tension in drilled shaft footings loaded under combined axial force and uniaxial bending moment. Large-scale tests were conducted on four footing specimens that were constructed with different column bar anchorage details: straight bars, hooked bars with two different hook orientations, and headed bars. All tension-loaded column reinforcement was shown to yield regardless of anchorage type. Further, all anchorage types developed stresses in the vicinity of the anchorage region except for bars with end hooks that were oriented outwards from the base of the column. Properly oriented hooked bars, considering the internal force flow of the strut-and-tie model, and headed bars developed more uniform stress distributions over their lengths as compared to straight bars. Based on developed stress distributions for the column reinforcement estimated fromstrain measurements, a critical section was also proposed to establish the anchorage requirement for the column reinforcement in a three-dimensional strut-and-tie model.