Seismic Performance of Circular Concrete Filled Steel Tube Columns for Accelerated Bridge Construction

This study evaluates the seismic performance of circular concrete-filled tube (CCFT) columns in accelerated bridge construction (ABC) projects. CCFT components are considered of interest for bridges subjected to seismic forces due to their efficient structural behavior under combined axial and bending loads: lateral stiffness of the steel tube is increased by the concrete, and concrete confinement is provided by the steel tube. This research addresses the ability of CCFT columns to perform adequately under gravitational and seismic loading before the concrete reaches its design strength. A reduced seismic hazard that accounts for this temporal condition is also implemented. Performance evaluation is based on the probability of failure of the CCFT column. For this research, a Caltrans bridge used in previous Pacific Earthquake Engineering Research Center (PEER) studies is adopted. The performance of a proposed CCFT column was compared to the original circular reinforced concrete (RC) column. Numerical analyses using concentrated plasticity models in OpenSees were used for this evaluation. Experimental data was used to calibrate the deteriorating response of CCFT columns in OpenSees. The analytical model predicts the CCFT column’s behavior under monotonic, static cyclic, and dynamic (seismic) loading. Then, the model was adapted to consider the effects of partial concrete compressive strength on the column behavior. The study accounts for temporary conditions, such as concrete compressive strength lower than the design value and reduced seismic loads. Results indicate that CCFT columns with partial design concrete compressive strength can be used for ABC because the relatively low decrease in strength is offset by the reduced seismic loads for this temporal condition.

• Record URL:
  https://www.ugpti.org/resources/reports/details.php?id=958
• Supplemental Notes:
  • This document was sponsored by the U.S. Department of Transportation, University Transportation Centers Program.
• Corporate Authors:

  University of Utah, Salt Lake City

  Department of Civil and Environmental Engineering
  110 South Central Campus Drive, Room 2115
  Salt Lake City, UT  United States  84112

  Mountain-Plains Consortium

  North Dakota State University
  Fargo, ND  United States  58108

  Office of the Assistant Secretary for Research and Technology

  University Transportation Centers Program
  Department of Transportation
  Washington, DC  United States  20590
• Authors:
  • Tucker, Catherine
  • Ibarra, Luis
• Publication Date: 2019-7

Language

• English

Media Info

• Media Type: Digital/other
• Features: Appendices; Figures; References; Tables;
• Pagination: 79p

Subject/Index Terms

• TRT Terms: Bridge construction; Calibration; Columns; Compressive strength; Concrete; Earthquake resistant design; Failure analysis; Load tests; Numerical analysis; Plasticity; Reinforced concrete; Seismicity; Steel; Tubing
• Subject Areas: Bridges and other structures; Construction; Highways; Materials;

Filing Info

• Accession Number: 01715196
• Record Type: Publication
• Report/Paper Numbers: MPC 19-383
• Contract Numbers: MPC-404
• Files: UTC, TRIS, ATRI, USDOT
• Created Date: Aug 29 2019 9:32AM