Investigation into Shrinkage of High Performance Concrete Used for Iowa Bridge Decks and Overlays - Phase II Shrinkage Control and Field Investigation TR-690 (Phase II for TR-663)

High performance concrete (HPC) is increasingly used in bridge deck and deck overlays because of its high strength, low permeability and excellent durability. However, due to its high cementitious content, low water-to-binder ratio (w/b) and use of various admixtures, HPC can have a high risk for shrinkage cracking. Cracks weaken structures and permit water and harmful chemical ingress into concrete, thereby accelerating deterioration and corrosion of reinforcement (Shah et al 1997). Shrinkage also causes concrete slab to curl and warp, which affects the girder-to-deck composite action, ultimately decreasing load-carrying capacity of the bridge (Tarr 2008). In addition, shrinkage may bring about stress loss in prestressed concrete structures and affect camber and deflection and load carrying capacity of bridge girders. Over the past decade, many states have reported cracking on HPC bridge decks at early ages (Wan 2010 and Whiting et al 2000), and this problem is also a great concern in Iowa. Recently, the Iowa Highway Research Board (IHRB) has sponsored a Project TR-633, Investigation into Shrinkage of High Performance Concrete Used for Iowa Bridge Decks and Overlays (Phase I). In this study, autogenous, free drying, and restrained ring shrinkage of 11 typical Iowa HPC mixes were monitored over time. The mechanical properties (such as elastic modulus and compressive and splitting tensile strength), creep coefficients, and cracking potentials of these concrete mixes were evaluated. The results indicated that among these 11 mixes studied, three mixes were identified as having high cracking potential and five mixes as having medium cracking potential. The researchers have suggested that the shrinkage behavior of the mixes identified as having high cracking potential could be modified by using the state-of-the art shrinkage reduction and control technologies, such as use of shrinkage-reducing agents (SRA), shrinkage compensating admixture (SCA) and internal curing (IC). The shrinkage behavior of the mixes identified as having medium cracking potential can be tailored through the balance between the w/b, cementitious content, and tensile strength. A field study shall be conducted to monitor and compare the performance of the high and low shrinkage cracking mixes used in Iowa. To verify and implement the research results obtained from the Phase I study of Project TR633, a Phase II study as proposed as below is to further investigate and identify the most functional, practical and cost effective method for controlling shrinkage cracking potential of HPC in Iowa bridge decks and overlays.

• Supplemental Notes:
  • TR-690; Addendum 540;

Language

• English

Project

• Status: Completed
• Funding: $299993.00
• Contract Numbers:

  TR-690

  ISU proposal 131084

  Add 540

• Sponsor Organizations:

  Iowa Department of Transportation

  800 Lincoln Way
  Ames, IA  United States  50010
• Project Managers:

  Goetz, Vanessa

• Performing Organizations:

  Iowa State University, Ames

  Institute for Transportation
  Ames, IA  United States  50011-8664
• Principal Investigators:

  Sritharan, Sri

  Schlorholtz, Scott

  Wang, Kejin

• Start Date: 20150701
• Expected Completion Date: 20190228
• Actual Completion Date: 0
• Source Data: RiP Project 39593

Subject/Index Terms

• TRT Terms: Admixtures; Bridge decks; Compressive strength; Concrete curing; Concrete overlays; High performance concrete; Permeability; Shrinkage
• Subject Areas: Bridges and other structures; Highways; Pavements; I30: Materials;

Filing Info

• Accession Number: 01561169
• Record Type: Research project
• Source Agency: Iowa Department of Transportation
• Contract Numbers: TR-690, ISU proposal 131084, Add 540
• Files: RIP, STATEDOT
• Created Date: Apr 25 2015 1:00AM