- Author
- Stone, W. C. | Cheok, G. S.
- Title
- Inelastic Behavior of Full-Scale Bridge Columns Subjected to Cyclic Loading.
- Coporate
- National Bureau of Standards, Gaithersburg, MD
- Sponsor
- National Science Foundation Federal Highway Administration California Department of Transportation
- Report
- NBSIR 88-3788, May 1988, 262 p.
- Distribution
- Available from National Technical Information Service
- Keywords
- axial load | behavior | bridges | columns | concrete | confinement | cyclic load | ductility | energy absorption | failure | full-scale | lateral load | microconcrete | scale effects
- Abstract
- Circular, spirally reinforced concrete bridge columns were subjected to cyclic loading (representing seismic loads) in the laboratory. The test articles were prototype columns designed in accordance with recent (1983) California Department of Transportation (CALTRANS) specifications. Two full-scale columns, each measuring 5 feet (1.52m) in diameter with aspect ratios (height/width) of 3 and 6, were subjected to slow reversed cyclic lateral load with constant axial load to simulated the gravity weight of the bridge superstructure. Details are presented concerning the design of the special test apparatus required to conduct the project as well as recommendations for future improvements in test procedures. Results from the tests are presented in the form of energy absorption graphs and bar charts, load-displacement hysteresis curves, longitudinal and confining steel strains, and curvature profiles. Comparisons of the ultimate moment capacities, measured displacement ductilities, plastic hinge lengths, cyclic energy absorption capacity and the failure modes of the full-scale specimens are made with those observed from 1/6-scale model tests.