Carbon Fiber Reinforced Polymer Prestressing
Transcript of Carbon Fiber Reinforced Polymer Prestressing
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Carbon Fiber Reinforced Polymer Prestressing Matthew J. Chynoweth, P.E. Michigan Department of Transportation 2015 AASHTO Subcommittee on Bridges and Structures Technical Subcommittee T-6, Composites
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What is A.I.I.?
• AASHTO Innovation Initiative • Formerly AASHTO TIG • Innovation by transportation agencies, for transportation
agencies • Leading edge, not bleeding edge • Agency teams that developed and proved the concepts
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What is A.I.I.?
• AASHTO Innovation Initiative • Peer exchange, shared resources, lessons learned • Limited-time, hands-on help • Funded by States through AASHTO
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What is CFRP? • Corrosion-free option for pre-tensioning and post-
tensioning applications on bridge components
• Comparable performance to steel in finished product: material handling, structural erection, constructability
• Anticipation of lower life cycle costs, including reduced maintenance and rehabilitation work
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Other CFRP benefits? • Cost, like steel, is a fraction of overall project budget, and
is falling as applications, supply and technology advance
• Increased worker and motorist safety through less anticipated life cycle maintenance and rehabilitation work
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Year
Life
-cyc
le c
ost
Black Steel Bridge Epoxy-Coated Steel Bridge CFRP Bridge
5.98
5.63
2.29 Breakeven year
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Construction Deck Replacement
Deck Shallow Overlay Superstructure replacement
Bridge Life Cycle Costs
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FY REGION LOCATION BRIDGE ID TECHNOLOGY DESCRIPTION COMMENTS
2001 Southfield Bridge Street over Rouge River
B01 of 63-20-35
CFRP prestressing, longitudinal and transverse post tensioning and deck reinforcement
2011 Metro Pembroke Ave over M-39 S09-82193 CFRP grid deck reinforcement, CFCC
transverse post tensioning 803 feet of 40 mm cable used
2012 University M-50 / US-127 BR ov RR R01-38072 CFCC transverse post tensioning 1017 feet of 40 mm cable used
2013 Metro WB M-102 over Plum Creek B03-82141-4 CFCC deck reinforcement, longitudinal
prestressing, shear stirrups 106,000 feet of 15.2 mm cable used
2014 Metro EB M-102 over Plum Creek B03-82141-3 CFCC deck reinforcement, longitudinal
prestressing, shear stirrups 106,000 feet of 15.2 mm cable used
2014 Metro I-94 EB over Lapeer Rd S18-77111-3 CFCC transverse post tensioning 861 feet of 40 mm cable used
2015 Metro I-94 WB over Lapeer Rd S18-77111-4 CFCC transverse post tensioning 861 feet of 40 mm cable used
2015 University M-100 over Sharp Drain B02-23071 CFCC longitudinal prestressing 10,000 feet of 15.2 mm cable
to be used
2015 North M-66 over West Branch River B01-67032 CFCC longitudinal prestressing 5200 feet of 15.2 mm cable to
be used
2016 Southwest M-86 over the Prarie River B01-78061 CFCC longitudinal prestressed decked
bulb-T beam Potential candidate, structure study complete, still evaluating
Michigan DOT Deployments
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Michigan DOT Deployments
Pembroke Avenue over M-39 in the City of Detroit
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Michigan DOT Deployments
Pembroke Avenue over M-39 in the City of Detroit
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Michigan DOT Deployments
M-50 over Norfolk Southern Railroad in the City of Jackson
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Michigan DOT Deployments
M-50 over Norfolk Southern Railroad in the City of Jackson
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Michigan DOT Deployments
M-102 over Plum Creek in the City of Detroit
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Michigan DOT Deployments
M-102 over Plum Creek in the City of Detroit
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Michigan DOT Deployments
M-102 over Plum Creek in the City of Detroit
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Michigan DOT Deployments
M-102 over Plum Creek in the City of Detroit
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Virginia DOT Deployments
Nimmo Parkway in Virginia Beach
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Virginia DOT Deployments
Nimmo Parkway in Virginia Beach
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Virginia DOT Deployments
Nimmo Parkway in Virginia Beach
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Other States’ Deployments • Virginia DOT currently designing CRFP prestressed AASHTO
girder
• Maine DOT has used CRFP prestressing strands for prestressed NEXT beams, and some stay cables for the Penobscot Narrows bridge
• Ohio DOT is currently designing their first CFRP prestressed concrete box beam bridge
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Other States’ Deployments • Florida DOT performing research for CFRP use in
prestressed piles and post tensioned segmental bridges
• Louisiana DOT used external longitudinal CFRP post tensioning tendons for bridge strengthening
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Ongoing Research
• CFRP prestressed deck bulb-T beam pooled fund project with MI, IA, OR, WI & MN
• Long term durability and Michigan specific Design Guidelines • EC6 & CFCC research by Florida DOT
• National research – NCHRP 12-97: AASHTO LRFD Guide
Specification for the Design of Concrete Bridge Beams Prestressed with CFRP Systems
• Domestic Scan 13-03: Advances in FRP Composites in Transportation Infrastructure to start May 2015
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AII Marketing Approach
• Two pronged strategy: • General information for agencies interested in
materials, and wanting more implementation information
• More detailed technical design and construction support for agencies on the verge of implementation
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AII Marketing Approach
• Post sample designs, sample plans, material specifications for AII Lead States Team website
• Deploy other technical resources and develop workshops and webinars to assist agencies in early stages of implementation
• Engage other groups, such as AASHTO SCOC, and SCOM
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Summary
• Continue momentum of agency interest, and CFRP material benefits
• Assist states in implementation • Work through AASHTO SCOBS on LRFD guide
specifications balloting
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Lead States Team Mark Chaput, Chair MDOT [email protected] Matthew Chynoweth MDOT [email protected] Stephen Sharp VDOT [email protected] Omar Abu-Hajar ODOT [email protected]
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Jim Gutierrez Caltrans [email protected] Wayne Frankhauser, Jr. MaineDOT [email protected] Dr. Nabil Grace Lawrence Technological University [email protected]
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Thank you!
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