International Journal of Construction Engineering and Planning

This paper presents two research projects that investigated the performance of the grouted coupler connection details developed for accelerated bridge construction applications. The goal of the first project was to conduct laboratory test and evaluation of the grouted rebar coupler connections similar to those utilized on the Keg Creek Bridge on US Highway 6, the first replacement bridge in Iowa constructed entirely with modular and accelerated bridge construction technologies. The connections of focus were between the pier column and the pier cap, and between the pier column and the drilled shaft. Laboratory specimens were fabricated such that they were representative of the pier column connections of the Keg Creek Bridge, and tested for their strength and durability, mainly resistance to crack initiation and propagation at the joints. The success of the first project led to a follow-up study that investigated the performance of three novel integral abutment connection details that were designed for mechanically splicing the integral diaphragm and cap beam. The test results showed that the grouted coupler connection details, if properly incorporated, would provide bridge owners and engineers with viable options for improving the constructability and durability of their bridges.

Keywords: Accelerated bridge construction; connections; pier columns; integral abutment.

ASCE 2021. 2021 Infrastructure Report Card. American Society of Civil Engineers (ASCE). https://infrastructurereportcard.org/cat-item/bridges

Lee YS, Soltani M, Schweigert K, Maharjan, S. Prevention and Repair of End-Region Cracks in Prestressed Concrete Girders: A State-of-the-Art Review. International Journal of Civil and Structural Engineering Research. 2019;7(1):134-145. https://doi.org/10.5281/zenodo.6014921

Lee YS, Wipf TJ, Phares BM, Klaiber FW. Evaluation of a Steel Girder Bridge Strengthened with CFRP Post-Tension Bars. Journal of the Transportation Research Board. 2005;1928(1):233-244. https://doi.org/10.1177/0361198105192800125

ARTBA 2021. 2021 Bridge Condition Report. American Road & Transportation Builders Association (ARTBA). https://artbabridgereport.org/reports/2021-ARTBA-Bridge-Report.pdf

H.R. 3864 – 117th Congress (2021-2022): Infrastructure Investment and Jobs Act (November 15, 2021). https://www.congress.gov/bill/117th-congress/house-bill/3684/text

Accelerated Bridge Construction University Transportation Center (ABC-UTC). U.S. Department of Transportation. Office of the Assistant Secretary for Research and Technology. https://www.transportation.gov/content/university-transportation-centers

Azizinamini A. Accelerated Bridge Construction. Journal of Bridge Engineering. 2020;15(12):02020002. https://doi.org/10.1061/(ASCE)BE.1943-5592.0001643

Schweigert K, Lee YS, Gastel C, Maharjan S. Accelerated Bridge Construction and its Recent Trend. International Journal of Advance Research in Science and Engineering. 2018;7(8):50-58. https://doi.org/10.5281/zenodo.6015015

Phares BM, Lee YS, Hosteng TK, Nelson J. Investigation of Grouted Coupler Connection Details for Accelerated Bridge Construction. Journal of the Transportation Research Board. 2021;2675(8):562-569. https://doi.org/10.1177/0361198121999393

Jansson PO. Evaluation of Grout-Filled Mechanical Splices for Precast Concrete Construction. Report No. R-1512. Michigan Department of Transportation. May 2008. https://www.michigan.gov/documents/mdot/MDOT_Research_Report_R1512_234541_7.pdf

Littleton P, Mallela J. Iowa Demonstration Project: Accelerated Bridge Construction on US 6 over Keg Creek. Final Report – June 2013: Highways for Life. Federal Highway Administration. https://rosap.ntl.bts.gov/view/dot/54259

Iowa DOT (2011). U.S. 6 Bridge over Keg Creek: Photo Gallery. https://iowadot.gov/us6kegcreek/

Rowell SP, Grey CE, Woodson SC, Hager KP. High Strain-Rate Testing of Mechanical Couplers; ERDC TR-09-8. United States Army Corps of Engineers, Engineer Research and Development Center, Vicksburg, MS. September 2009.

Lee M, Wernly M, Garret B, Stanton JF, Eberhard MO, Weinert M. NCHRP Report 698: Application of ABC connections in moderate-to-high seismic regions. Transportation Research Board, Washington, D.C., 2011.

Restrepo JI, Tobolski MJ, Matsumoto EE. NCHRP Report 681: Development of a Precast Bent Cap System for Seismic Regions. Transportation Research Board, Washington, D.C., 2011.

Motaref S, Saiidi M, Sanders DH. Seismic Response of Precast Bridge Columns with Energy Dissipating Joints. Report No. CCEER-11-01, Center for Civil Engineering Earthquake Research, pp. 760, 2011.

Hironobu A. Cyclic Loading Experiment of Precast Columns of Railway Rigid-Frame Viaduct Installed with NMB Splice Sleeves. Proceedings of the Japan Concrete Institute. 2005;27(2).

Huang SW, Yu JT, Chiou HD, Asakawa T, Tsai KC. Final report of experiment on precast reinforced concrete beam-column assemblage. Chinese Society of Structural Engineering, 2011.

Iowa DOT (2011). Plans of US 6 over Keg Creek: BRF-006-1(114)-38-78. 780061114 Plan Revision. June 2011. https://iowadot.gov/us6kegcreek/documents/Revisions78_0061_114.pdf

Hosteng TK, Phares BM, Abu-Hawash A, Bierwagen D, Nelson J. Laboratory Investigation of Grouted Coupler Connection Details for ABC Bridge Projects. InTrans Project 12-441, Bridge Engineering Center, Iowa State University, Ames, Iowa, 2015.

AASHTO LRFD Bridge Design Specifications, 6th Edition, American Association of State Highway and Transportation Officials, Washington, D.C., 2012.

Hosteng TK, Phares BM, Redd S. Strength, Durability, and Application of Grouted Couplers for Integral Abutments in Accelerated Bridge Construction. InTrans Project 12-441, Bridge Engineering Center, Iowa State University, Ames, IA, 2016.

Shafei B, Hosteng TK, DeJong A. Integral Abutment Connection Details for Accelerated Bridge Construction. Bridge Engineering Center, Iowa State University, Ames, Iowa, 2018.