Minimizing Cracking in Bridge Decks Supported by Precast Prestressed Concrete Girders

Print
General Information
Solicitation Number: 1400
Former Study Number:
Status: Solicitation withdrawn
Date Posted: May 21, 2015
Last Updated: Jun 16, 2016
Solicitation Expires: May 21, 2016
Partners: KS
Lead Organization: Kansas Department of Transportation
Financial Summary
Suggested Contribution:
Commitment Start Year: 2015
Commitment End Year: 2021
100% SP&R Approval: Approved
Commitments Required: $750,000.00
Commitments Received: $150,000.00
Estimated Duration Month: 60
Waiver Requested: No
Contact Information
Lead Study Contact(s): David Behzadpour
David.Behzadpour@ks.gov
FHWA Technical Liaison(s): Sue Lane
Susan.Lane@dot.gov
Phone: 202-493-3044
Study Champion(s): John Jones
JJones@ksdot.org
Phone: 785-368-7175
Organization Year Commitments Technical Contact Name Funding Contact Name Contact Number Email Address
Kansas Department of Transportation 2015 $50,000.00 John Jones David Behzadpour 785-291-3847 David.Behzadpour@ks.gov
Kansas Department of Transportation 2016 $50,000.00 John Jones David Behzadpour 785-291-3847 David.Behzadpour@ks.gov
Kansas Department of Transportation 2017 $50,000.00 John Jones David Behzadpour 785-291-3847 David.Behzadpour@ks.gov

Background

Studies of cracking in bridge decks have focused on steel girder bridges under the assumption that cracking in decks supported by steel girders will be worse than in decks supported by precast prestressed concrete girders. Over the past two years, a study for the Kansas Department of Transportation (KsDOT) of a small population of bridges with decks containing innovative concrete mixes (eight with prestressed concrete girders and four with steel girders) indicates that not only will decks supported on prestressed concrete girders crack less than those supported by steel girders, but that the use of precast prestressed concrete girders offers a substantial advantage in limiting cracking over the use of steel girders – with reductions on the order of 80 percent for a variety on concrete mixtures. These observations contrast with work on the ongoing Pooled-Fund Study on the Construction of Crack-Free Bridge Decks, which includes three decks (two designed as low-cracking and one serving as control) supported by precast prestressed concrete girders, that indicates that these decks have no advantage over decks on steel girder bridges and, in fact, may under some circumstances exhibit more cracking than decks on steel girder bridges. Interestingly, the crack patterns in the two studies differ, with the prestressed girder bridges in the innovative deck study exhibiting low amounts of well-distributed cracking in the decks and the prestressed girder bridges in the pooled-fund study exhibiting a majority of deck cracks in the positive moment regions and virtually no cracks over the piers. This suggests that there may be two factors involved – both related to prestressing. In one case, the prestressing force, combined with creep, leads to continued shortening of the girders and, in turn, the decks. This places the deck in compression, limiting the effects of shrinkage and thus limiting crack formation. In a way, this is a form of post-tensioning of the deck. In the other case, the combined effects of the age of the girders when placed, the magnitude and eccentricity of the prestress force, and the overall design resulted in camber of the girders, which can place the decks in tension as the camber of the girders continues to grow. This latter point is supported by the observation that after several years, cracking in positive-moment regions of decks in the pooled-fund bridges has begun to decrease. Because of the high potential to take advantage of the “post-tensioning” effect of the shortening girders to reduce cracking, it is economically beneficial to gain an improved understanding of cracking in bridge decks supported by precast prestressed concrete girders – an understanding that will be highly useful in improving the durability of bridge decks across the U.S.

Objectives

The objectives of the proposed five-year study are to survey reinforced concrete decks on precast prestressed concrete girder bridges to obtain an accurate evaluation of deck performance, compare their performance with the performance observed for similar steel girder bridges, and use the results to develop design procedures to minimize cracking in bridge decks supported by precast prestressed concrete girders.

Scope of Work

The following tasks will be used to achieve the project objectives. 1. Sort structures in Kansas by age and type and obtain parallel recommendations from partner states with assistance from KsDOT and the Precast/Prestressed Concrete Institute. 2. Select 80 precast prestressed girder bridges and 40 steel bridges for evaluation – 40 in Kansas supported by precast prestressed girders to be matched with the existing inventory of over 150 surveyed steel girder bridges in Kansas and 80 in partner states, half supported by precast prestressed girders and half supported by steel girders to calibrate the results to account for differences in state design and construction specifications. 3. Evaluate the status of the bridge decks using current bridge deck management data. 4. Use field books, construction diaries, and other construction data to determine actual placement procedures and conditions, including construction specifications and special provisions, placing schedule, any construction problems involved with the structure, and the details and sequence of prestressed girder casting, delivery, and installation. 5. Perform onsite field surveys of the 120 bridges to determine crack densities. 6. Evaluate the data to determine consistent relationships or patterns of occurrence to estimate the level of protection provided to reinforcing steel by the deck construction method. 7. Compare the performance observed for decks supported by precast prestressed girders with the performance of decks supported by steel girders. 8. Develop a best-practices approach to design and construction to minimize deck cracking on precast prestressed concrete girder bridges. 9. Present workshops on study findings in partner states and assist partner state DOTs in implementing the best-practices approach.

Comments

We are looking for 5-6 partners to contribute $30,000 per year for five years.

Documents Attached
Title File/Link Document Category Document Type Privacy Document Date Download
Waiver Request # 1400 Waiver Request.pdf Other Other Public 2015-06-23
Approved Waiver Memo Approval of SP&R Waiver Pooled Fund Solicitation #1400.pdf Memorandum Other Public 2015-06-23
Minimizing Cracking in Bridge Decks Supported by Precast Prestressed Concrete Girders Proposal Cracking of Bridge Decks-PS girders 4-21-15.pdf Other Other Public 2015-05-21

Minimizing Cracking in Bridge Decks Supported by Precast Prestressed Concrete Girders

General Information
Solicitation Number: 1400
Status: Solicitation withdrawn
Date Posted: May 21, 2015
Last Updated: Jun 16, 2016
Solicitation Expires: May 21, 2016
Partners: KS
Lead Organization: Kansas Department of Transportation
Financial Summary
Suggested Contribution:
Commitment Start Year: 2015
Commitment End Year: 2021
100% SP&R Approval: Approved
Commitments Required: $750,000.00
Commitments Received: $150,000.00
Contact Information
Lead Study Contact(s): David Behzadpour
David.Behzadpour@ks.gov
FHWA Technical Liaison(s): Sue Lane
Susan.Lane@dot.gov
Phone: 202-493-3044
Commitments by Organizations
Agency Year Commitments Technical Contact Name Funding Contact Name Contact Number Email Address
Kansas Department of Transportation 2015 $50,000.00 John Jones David Behzadpour 785-291-3847 David.Behzadpour@ks.gov
Kansas Department of Transportation 2016 $50,000.00 John Jones David Behzadpour 785-291-3847 David.Behzadpour@ks.gov
Kansas Department of Transportation 2017 $50,000.00 John Jones David Behzadpour 785-291-3847 David.Behzadpour@ks.gov

Background

Studies of cracking in bridge decks have focused on steel girder bridges under the assumption that cracking in decks supported by steel girders will be worse than in decks supported by precast prestressed concrete girders. Over the past two years, a study for the Kansas Department of Transportation (KsDOT) of a small population of bridges with decks containing innovative concrete mixes (eight with prestressed concrete girders and four with steel girders) indicates that not only will decks supported on prestressed concrete girders crack less than those supported by steel girders, but that the use of precast prestressed concrete girders offers a substantial advantage in limiting cracking over the use of steel girders – with reductions on the order of 80 percent for a variety on concrete mixtures. These observations contrast with work on the ongoing Pooled-Fund Study on the Construction of Crack-Free Bridge Decks, which includes three decks (two designed as low-cracking and one serving as control) supported by precast prestressed concrete girders, that indicates that these decks have no advantage over decks on steel girder bridges and, in fact, may under some circumstances exhibit more cracking than decks on steel girder bridges. Interestingly, the crack patterns in the two studies differ, with the prestressed girder bridges in the innovative deck study exhibiting low amounts of well-distributed cracking in the decks and the prestressed girder bridges in the pooled-fund study exhibiting a majority of deck cracks in the positive moment regions and virtually no cracks over the piers. This suggests that there may be two factors involved – both related to prestressing. In one case, the prestressing force, combined with creep, leads to continued shortening of the girders and, in turn, the decks. This places the deck in compression, limiting the effects of shrinkage and thus limiting crack formation. In a way, this is a form of post-tensioning of the deck. In the other case, the combined effects of the age of the girders when placed, the magnitude and eccentricity of the prestress force, and the overall design resulted in camber of the girders, which can place the decks in tension as the camber of the girders continues to grow. This latter point is supported by the observation that after several years, cracking in positive-moment regions of decks in the pooled-fund bridges has begun to decrease. Because of the high potential to take advantage of the “post-tensioning” effect of the shortening girders to reduce cracking, it is economically beneficial to gain an improved understanding of cracking in bridge decks supported by precast prestressed concrete girders – an understanding that will be highly useful in improving the durability of bridge decks across the U.S.

Objectives

The objectives of the proposed five-year study are to survey reinforced concrete decks on precast prestressed concrete girder bridges to obtain an accurate evaluation of deck performance, compare their performance with the performance observed for similar steel girder bridges, and use the results to develop design procedures to minimize cracking in bridge decks supported by precast prestressed concrete girders.

Scope of Work

The following tasks will be used to achieve the project objectives. 1. Sort structures in Kansas by age and type and obtain parallel recommendations from partner states with assistance from KsDOT and the Precast/Prestressed Concrete Institute. 2. Select 80 precast prestressed girder bridges and 40 steel bridges for evaluation – 40 in Kansas supported by precast prestressed girders to be matched with the existing inventory of over 150 surveyed steel girder bridges in Kansas and 80 in partner states, half supported by precast prestressed girders and half supported by steel girders to calibrate the results to account for differences in state design and construction specifications. 3. Evaluate the status of the bridge decks using current bridge deck management data. 4. Use field books, construction diaries, and other construction data to determine actual placement procedures and conditions, including construction specifications and special provisions, placing schedule, any construction problems involved with the structure, and the details and sequence of prestressed girder casting, delivery, and installation. 5. Perform onsite field surveys of the 120 bridges to determine crack densities. 6. Evaluate the data to determine consistent relationships or patterns of occurrence to estimate the level of protection provided to reinforcing steel by the deck construction method. 7. Compare the performance observed for decks supported by precast prestressed girders with the performance of decks supported by steel girders. 8. Develop a best-practices approach to design and construction to minimize deck cracking on precast prestressed concrete girder bridges. 9. Present workshops on study findings in partner states and assist partner state DOTs in implementing the best-practices approach.

Comments

We are looking for 5-6 partners to contribute $30,000 per year for five years.

Title Type Private
Waiver Request Other N
Approved Waiver Memo Memorandum N
Minimizing Cracking in Bridge Decks Supported by Precast Prestressed Concrete Girders Proposal Other N

Currently, Transportation Pooled Fund is not supported on mobile devices, please access this Web portal using a desktop or laptop computer.