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Eberhard, M. WA-RD 908.1 Impacts of Cascadia Subduction Zone M9 Earthquakes on Bridges in Washington State: Single-Degree-of-Freedom (SDOF) Ideal... 2022 TRAC/UW
Abstract:
The impacts on bridges of a magnitude 9 (M9) Cascadia Subduction Zone (CSZ) earthquake were evaluated to help prioritize earthquake retrofit efforts and support the development of emergency response plans. To evaluate these impacts, researchers developed single-degree-of-freedom (SDOF) models of typical pre-1976 and 1976-2018 bridges in Washington state. These models were subjected to ground motions from 30 simulated M9 scenarios, ten locations, and four sets of 30 site profiles. The mean calculated lateral strengths of the older and newer bridges were similar for a wide range of periods and exceeded the strengths expected from design procedures, even after the contributions of the abutments were neglected and material overstrength was accounted for. As expected, the older bridge columns had far less transverse reinforcement than the newer bridges. Near the CSZ, the damage was predicted to be widespread for a wide range of effective periods. The likelihood of column concrete spalling and longitudinal bar buckling ranged from 35-70 percent and 10-30 percent, respectively, with the larger values corresponding to softer site profiles. Far from the CSZ, the flexural damage to bridges was expected to be slight for locations outside of sedimentary basins. For most locations within sedimentary basins, such as Seattle, damage levels were predicted to be low for bridge periods below 0.5s. For bridges with periods of between 0.5s and 3s, the likelihood of concrete spalling ranged from 50-75 percent. For these long-period bridges, the likelihood of bar buckling ranged from 35-50 percent for softer sites and 20-35 percent for stiffer sites. This study did not account for the effects of bridge abutments, skew, or curved alignment. Note also that this study did not consider the possibility of span unseating, column shear failures, or site liquefaction, any of which could lead to bridge collapse.

Authors:
Eberhard, M., Kortum, Z., Liu, K-J, Berman, J., Marafi, N., Maurer, B.

Keywords:
Bridges, earthquakes, Cascadia, damage


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McDaniel,C. C. WA-RD 639.1 Seismic Assessment and Retrofit of Existing Multi-Column Bent Bridges 2006 TRAC/WSU
Abstract:
The main objective of this research was to assess the seismic vulnerability of typical pre-1975 WSDOT prestressed concrete multi-column bent bridges. Additional objectives included determining the influence of soil-structure-interaction on the bridge assessment and evaluating the effects of non-traditional retrofit schemes on the global response of the bridges. Overall this research highlighted the vulnerability of non-monolithic bridge decks and shear-dominated bridge columns in pre-1975 WSDOT prestressed concrete multi-column bent bridges as well as the importance of including soil-structure-interaction, calibrating the force/displacement characterization of the columns to experimental test data and detailed modeling of the bridges such as expansion joint/girder interaction. In the end, the seismic assessment of bridges is a cost/efficiency issue. Each bridge is different, therefore, investing in improved analyses up front will enable an efficient use of the limited funds for bridge improvement, resulting in a significant savings overall.

Authors:
McDaniel,C. C.

Keywords:
WSDOT, prestressed concrete, multi-column bent, bridges, seismic assessment, retrofit


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Malone,S. WA-RD 602.1 Information Tools to Improve Post-Earthquake Prioritization of WSDOT Bridge Inspections 2005 TRAC/UW
Abstract:
University of Washington researchers developed information tools to increase the speed and efficiency of Washington State Department of Transportation (WSDOT) post-earthquake response and recovery efforts. The researchers upgraded the Pacific Northwest Seismograph Network (PNSN) ground-motion processing software to rapidly generate and disseminate "ShakeMaps," which are maps of earthquake intensity. The researchers also implemented two procedures to estimate the likelihood of slight (or greater) bridge damage; these procedures are based on the intensity of earthquake shaking (obtained from the ShakeMaps) and on each bridge's location, year of construction, and bridge type (obtained from the Washington State Bridge Inventory). The first procedure, developed at the University of Washington, is based on observations of bridge damage from the 2001 Nisqually earthquake. The second procedure is contained in the Federal Emergency Management Agency HAZUS software for predicting the lowest level of damage. Shortly following an earthquake, e-mail and pager alert messages will be sent to WSDOT personnel notifying them of the preliminary earthquake magnitude and epicenter. ShakeMaps and a prioritized list of bridges (ranked by likelihood of bridge damage) will be available on a Web server at the University of Washington and will be pushed to a WSDOT FTP server.

Authors:
Malone,S., Eberhard,M. O., LaBelle,J., Ranf,T.

Keywords:
bridges, damage, earthquakes, fragilities, inspection, ShakeMap, Washington, speed, Washington state, transportation, WSDOT, software, earthquake, bridge, construction, management


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External Links:
http://www.wsdot.wa.gov/research/reports/fullreports/602.1.pdf http://wsdot.wa.gov/Research/Reports/600/602.1.htm
Hieber,D. G. WA-RD 611.1 Precast Concrete Pier Systems for Rapid Construction of Bridges in Seismic Regions 2005 TRAC/UW
Abstract:
Increasing traffic volumes and a deteriorating transportation infrastructure have stimulated the development of new systems and methods to accelerate the construction of highway bridges. Precast concrete bridge components offer a potential alternative to conventional reinforced, cast-in-place concrete components. The use of precast components has the potential to minimize traffic disruptions, improve work zone safety, reduce environmental impacts, improve constructability, increase quality, and lower life-cycle costs. This study compared two precast concrete bridge pier systems for rapid construction of bridges in seismic regions. One was a reinforced concrete system, in which mild steel deformed bars connect the precast concrete components and provide the flexural strength of the columns. The other was a hybrid system, which uses a combination of unbonded post-tensioning and mild steel deformed bars to make the connections. A parametric study of the two types of systems was conducted using nonlinear finite element models to investigate the global response and likelihood of damage for various frame configurations. On the basis of this study, a practical method was developed to estimate maximum seismic displacements from the cracked section properties of the columns, the elastic design displacement response spectrum, and the base-shear strength ratio. The results of the global nonlinear finite element analyses suggest that the systems have the potential for good seismic performance. Further analytical and experimental research is needed to investigate the constructability and seismic performance of the connection details.

Authors:
Hieber,D. G., Wacker,J. M., Eberhard,M. O., Stanton,J. F.

Keywords:
Alternative, bridge, bridges, columns, concrete, concrete bridge, connections, constructability, construction, cost, costs, damage, design, developed, development, environmental, environmental impact experimental, finite element, highway, impact, impacts, infrastructure, methods, models, performance piers, precast, precast concrete, prestressed concete, quality, Rapid construction, Regions, reinforce concrete, research, response spectra, response spectrum, safety, seismic, seismic performance, steel strength, Study, substructures, System, systems, traffic, traffic volumes, trasportation, volume


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External Links:
http://www.wsdot.wa.gov/research/reports/fullreports/611.1.pdf http://wsdot.wa.gov/Research/Reports/600/611.1.htm
Hieber,D. G. WA-RD 594.1 State-of-the-Art Report on Precast Concrete Systems for Rapid Construction of Bridges 2004 TRAC/UW
Abstract:
More extensive use of precast concrete components, which are fabricated off-site and then connected on-site, could allow bridges to be constructed more rapidly. The increased use of precast components in bridges also promises to increase work-zone safety and reduce environmental impacts for bridges that span waterways. This report discusses precast concrete systems that have been used for rapid bridge construction outside of Washington State and evaluates whether they are suitable for use within Western Washington. The report also identifies key features that are important for successful precast concrete system applications. Information on previously used systems was gathered through an extensive review of published literature. Washington State Department of Transportation (WSDOT) design and construction engineers, precast concrete producers, and bridge contractors were also consulted to obtain their input on the positive and negative aspects of applied systems. Most applications have been used in areas of low seismic potential. By contrast, Western Washington is subject to strong earthquakes. Because precast systems contain connections, and connections are typically vulnerable to seismic loading, a qualitative evaluation of the expected seismic performance of each system was deemed necessary. The researchers identified four types of precast concrete superstructure systems: full-depth precast concrete panels, partial-depth precast concrete panels, prestressed concrete multibeam superstructures, and preconstructed composite units. The four systems appear to have acceptable seismic behavior, but there are concerns associated with constructability and durability. Precast concrete substructure systems have received much less attention than have superstructure systems. The use of precast substructure components can provide significant time savings by eliminating the time needed to erect formwork, fix steel, and cure concrete in the substructure. The success of the system depends strongly on the connections, which must hae good seismic resistance, have tolerances that allow easy assembly, and be suitable for rapid construction.

Authors:
Hieber,D. G., Wacker,J. M., Eberhard,M. O., Stanton,J. F.

Keywords:
bridge, bridges, concrete, construction, multibeam superstructures, precast concrete, precast substructures, prestressed concrete, Rapid construction, state-of-the-art, systems, safety, environmental, environmental impact, impacts, span, Washington, Washington state, applications, transportation, WSDOT, design, seismic, earthquake, seismic loading, evaluation, performance, superstructure, prestressed, seismic behavior, constructability, durability, steel, resistance


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External Links:
http://www.wsdot.wa.gov/research/reports/fullreports/594.1.pdf http://wsdot.wa.gov/Research/Reports/500/594.1.htm
Itani,R. WA-RD 542.2 Rapid Repair Design of Temporary Support Systems for Bridges Damaged by Earthquakes in the State of Washington. Appendix... 2002 TRAC/WSU
Abstract:
The scope of this project is to provide designs for the rapid construction of shoring systems for damaged bridges due to earthquakes in the state of Washington. Using a broad range of loading criteria and established bridge geometries, several shoring systems were developed for 75% of the bridge types in Washington that are encountered in typical field scenarios. Using materials commonly available in the Puget Sound stockyards, steel and a wood/steel combination shoring system were developed to shore standardized concrete pre-stressed girder bridges, concrete box girder bridges, or steel plate girder bridges. The temporary shoring can span a height of 15 to 40-feet. A handbook, with a flowchart and detailed construction drawings, was developed to provide WSDOT inspection engineers with tools to administer the full, appropriate completion of the shoring systems to allow the public and emergency crews to traverse damaged bridges.

Authors:
Itani,R., Fridley,K., Heath,L.

Keywords:
shoring systems, bridges, earthquake, pre-engineered plans


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External Links:
http://www.wsdot.wa.gov/research/reports/fullreports/542.2.pdf http://wsdot.wa.gov/Research/Reports/500/542.2.htm
Nee,J. WA-RD 518.1 Evaluation of the Service Patrol Program in the Puget Sound Region 2001 TRAC/UW
Abstract:
The Service Patrol pilot demonstration in Seattle and Tacoma was managed by the Washington State Department of Transportation (WSDOT) and operated by Washington State Patrol (WSP) cadets and contracted registered tow truck operators (RTTOs). Two other roving services, not funded as part of this pilot effort but included to a limited extent in this evaluation, were the roving patrol service provided by WSDOT on the SR 520 and I-90 floating bridges and the privately sponsored motor assistance vehicle from AAA's RescueVan. The evaluation examines how the similarities and differences among the different service delivery modes (e.g., the intensity of deployment, equipment choices, service delivery, costs) affect the impact of the Service Patrol operation on traffic conditions (e.g., reductions in delay) and the level of motorist satisfaction. This report also discusses feedback by the agencies participating in the Service Patrol program on institutional and operational issues that contribute to or hinder the success of the program. Operational characteristics and operating statistics are reported to convey factors that describe program effectiveness. The results of the study indicate that the use of a combination of service providers has benefits that no single provider can duplicate, and the cost implications of changing the program are small enough that any potential savings would be fairly minor. The pilot project resulted in a variety of intangible benefits, such as improved interagency coordination and cooperation, more efficient utilization of personnel, and a better understanding of each partner's roles and contributions toward congestion relief. The positive viewpoint toward the Service Patrol was uniform, regardless the service mode. Therefore, no significant changes to the existing pilot program are recommended at this time.

Authors:
Nee,J., Hallenbeck,M. E.

Keywords:
service patrols, incident response time, traffic delay, traffic safety, research, seattle, Washington, Washington state, transportation, WSDOT, truck, evaluation, floating bridge, bridges, bridge, costs, cost, traffic, condition, program, statistics, benefits, benefit, congestion


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Dames & Moore- Inca Engineering WA-RD 324.1 Foundation-Soil Interaction Analysis of Bridges - Volumes I and II 478 1993
Abstract:
Dames & Moore And their subcontractor, Inco Engineers, have prepared this Manual of Practice for conducting bridge foundation-soil interaction analyses. The manual is intended to assist engineers in the Bridge Design office at the Washington State Department of Transportation (WSDOT) who perform dynamic analysis of bridge-foundation systems. The primary purpose of the manual is to present practical and accurate methods of estimating the foundation stiffness matrices for abutment or pier foundations supported on footings or piles. These matrices are needed for soil-structure interaction analysis to more accurately determine the seismic loads acting on the bridge superstructure and on the abutment and pier foundations.This Manual of Practice consists of two volumes. Volume I presents five bridge example problems:1. Coldwater Creek2. Deadwater Slough3. Ebey Slough4. Northup Way5. FHWAThe first four examples are actual WSDOT bridges and the fifth example is a fictitious bridge that appeared in a 1991 FHWA course notebook on seismic design of highway bridges.Volume II presents the input and output files of the SEISAB computer program for the dynamic soil-structure interaction analysis of bridges. The SEISAB computer program is currently used by WSDOT in the seismic design of Washington state bridges.Dames & Moore recommends the FHWA and Novak methods to estimate bridge foundation stiffness matrices. These methodologies are presented in detail in the Coldwater Creek example problem in Volume I. In this example, the basic theory and relevant equations or inputs for implementing these methodologies are provided first and are immediately followed by their application to the Coldwater Creek bridge. The appropriate equations or inputs from the FHWA and Novak methodologies presented not the Coldwater Creek example problem are identified and applied in the other four bridge example problems. Volume I also contains three appendices. The basis for the recommendation of the FHWA and Novak methods is provided in Appendix A, which is a reproduction of the 1992 Dames & Moore report to WSDOT on the evaluation of methods to estimate foundation stiffnesses. Appendix B consists of selected pages from the BMCOL 76 computer program user guide; this computer program, which computes the load-deflection and moment-rotation curves for single piles, is part of the FHWA methodology. Appendix C presents the method for transforming the foundation stiffness matrices from one coordinate system to another. This transformation process is important because the coordinate systems assumed in the FHWA and Novak methods are generally different and therefore are not necessarily the same as the SEISAB coordinate system. Coordinate transformations are also discussed in the ColdWater Creek example problem.

Authors:
Dames & Moore- Inca Engineering

Keywords:
analysis, bridge, bridge design, bridge foundation, bridges, computer, computer program, design, equations, evaluation, Foudation-Soil, foundation, foundation stiffness, highway, interaction, loads, manual, methodology, methods, piles, program, seismic, seismic design, soil-structure interaction, superstructure, System, systems, transportation, volume, Volumes I & II, Washington, Washington state, WSDOT


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Roper,T. H. WA-RD 243.1 Thin Overlay, South 154th Street Overcrossing 5/523E Experimental Feature 1991
Abstract:
The Washington State Department of Transportation is conducting experimental field evaluations of selected polymer concrete thin (1/4 inch) overlays. The polymer concrete material is manufactured by private industry firms and installed on selected bridge decks under standard WSDOT construction contracts. Approximately 24 bridges will be involved in the experiment; eight of these are included in federal participating construction projects as experimental features.A polymer concrete thin overlay, The Conkryl Broadcast System (methlmethacrylate), was applied to the deck of the South 154th Street Overcrossing, Bridge No. 5/523, under Contract No. 3354, SR 405 Tukwila to South Renton HOV Lanes. This bridge is a prestressed girder bridge located on the mainline I-5 at the intersection with I-405 in Seattle, Washington.

Authors:
Roper,T. H., Henley,E. H. Jr

Keywords:
bridge, bridge deck, bridge deck repairs, bridge decks, bridges, concrete, construction, contracts, Deck, evaluation, experimental, HOV, HOV lanes, lanes, overlay, overlays, polymer, polymer concrete, prestressed, project, seattle, thin overlay, transportation, Washington, Washington state, WSDOT


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Roper,T. H. WA-RD 148.1 Thin Overlay- Yakima River Bridge - Experimental Feature 1989
Abstract:
The Washington State Department of Transportation will be conducting experimental field testing of several selected polymer concrete thin (1/4 inch) overlays over a ten-year period. The polymer concrete material is manufactured by private industry firms and installed on selected bridge decks under standard WSDOT construction contracts. Approximately 21 bridges will be involved in the experiment; eight of these are included in federal participating projects as experimental features.Washington State Department of Transportation will be conducting experimental field testing of several selected polymer concrete thin (1/4inch) overlays over a ten-year period. The polymer concrete material is manufactured by private industry and installed on selected bridge decks under standard WSDOT construction 21 bridges will be involved in the experiment; eight of these are included in federal participating projects as features. The polymer concrete thin overlays were applied to the decks of the River Bridge and the Yakima River Bridge under Contract No. 3 SR 90 and SR 82, Interchange to Terrace Heights. Both bridges are steel truss bridges located on SR 82 just outside Yakima, Washington. Both the epoxy overlay and the methacrylate overlays were versatile products apply under difficult traffic control conditions. Starting and stopping the various pours to accommodate opening and closing of lanes for traffic proved satisfactory. To the extent possible, work was performed at night when traffic was light. All three lanes were then opened to traffic in the early morning to accommodate peak traffic conditions.

Authors:
Roper,T. H., Henley,E. H. Jr

Keywords:
bridge, bridge deck, bridge deck repairs, bridge decks, bridges, concrete, condition, construction, contracts, control, Deck, Epoxy, experimental, lanes, light, overlay, overlays, polymer, polymer concrete, steel, steel truss bridge, thin overlay, traffic, traffic control, transportation, Washington, Washington state, WSDOT


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Roper,T. H. WA-RD 164.1 Burlington Northern RailRoad Overcrossing Bridge Micrsilica Modified Concrete Overlay 1989
Abstract:
Washington State has approximately 700 bridge decks that may require a latex modified concrete (LMC) overlay in the next 12 to 15 years. The microsilica concrete overlay is seen as a possible alternative to the increasingly expensive latex modified concrete.A microsilica modified concrete overlay was placed on Bridge 5/718W in Skagit County.The bridge is a concrete box girder structure with 8,100 square feet of deck area. The ADT on this bridge is 9,150 vehicles per day.The minimum overlay thickness was 1% inches. Superplasticizer was added to the mix. The concrete was mixed in a conventional batch plant with the technical representative from the microsilica supplier providing assistance. The microsilica modified concreteoverlay was finished and cured as prescribed by WSDOTts specification for LMC overlays.The microsilica was supplied as a slurry. Force 10,000, produced by W. R. Grace and Company, Cambridge, Massachusetts, was the source of the microsilica.The long-term performance evaluation of the microsilica-modified concrete will be based on a direct comparison with the LMC overlay to be constructed on Bridge 5/71SE. Both bridges are of similar construction, have the same deck area and ADT, and have existing decks with similar levels of chloride contamination. Both overlays were constructed under the same contract.

Authors:
Roper,T. H., Henley,E. H. Jr

Keywords:
Alternative, bridge, bridge deck, bridge deck overlay, bridge deck repairs, bridge decks, bridges, chloride, concrete, concrete additives, construction, contamination, Deck, evaluation, latex modified concrete, microsilica concrete, overlay, overlays, performance, performance evaluation, silica fume, specification, Washington, Washington state


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Sorensen,H. WA-RD 166.1 Bridge Standards - Local Governments 1988
Abstract:
In this study a survey was conducted to ascertain the needs of employees of local governmental agencies with regard to the conduct of the design of bridges. Recommendations, relative to the development of standard plans which can be used by county engineers, are put forth. These recommendations are based on the needs of the local agencies, information regarding existing manufacturing capabilities, information concerning existing standard plans relative to bridges and information on an existing computer software program (BRADD-2) which is available from the AASHTO. The information on which the recommendations were made was obtained by telephone conversations, written questionnaires and/or personal visits with/form/to 75 local agencies (46 cities and 39 counties) in the state of Washington and by personal visits to 4 precasitng plants and 1 fabricating plant.

Authors:
Sorensen,H.

Keywords:
agencies, bridge, bridge design, bridge standards, bridges, computer, concrete, counties, design, development, fabricators, local government, precast, prestressed, program, software, standard plans, suppliers, survey, Washington


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Sorensen,H. WA-RD 123.1 Bridge - Standard Systems 753 1987
Abstract:
A survey of standards for bridges, which exist in the U.S., was conducted, pertinent information concerning these standards was placed into a matrix spread sheet format using Lotus 1-2-3 and an IBM/PC. This information was reviewed for possible use in developing plans .for standard bridge systems, which could be used by county engineers in Washington.Information on types of standard bridge systems to be developed was obtained from Washington county engineers via a questionnaire. It is recommended that designs for at least one standard bridge system be developed for each of the primary materials readily available in Washington, namely: steel, concrete and wood. Other details, which should be included in the standards, are given.

Authors:
Sorensen,H., Olson,C. D.

Keywords:
bridge, bridge standards, bridges, concrete, counties, design, lotus 1-2-3, materials, microcomputer, spread sheet, steel, survey, systems, Washington, Washington County Engineers


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Roper,T. H. WA-RD 101.1 Snake River Bridge Thin Overlay: Experimental Feature 1987
Abstract:
The Washington State Department of Transportation will be conducting experimental field testing of several selected ploymer concrete thin overlays over a ten-year period. The ploymer concrete material is manufactured by private industry firms and installed on selected bridge decks under standard WSDOT construction contracts. Approximately 14 bridges will be involved in the experiment.The study was conducted in cooperation with the U.S. Department of Transportation, Federal Highway Administration. The Washington State Department of Transportation will be conducting field testing of several selected concrete thin overlays over a ten-year period. The polymer concrete material is manufactured by private industry and installed on selected bridge decks under standard WSDOT construction contracts. 14 bridges will be involved in the experiment. The Snake River Bridge at Clarkston, Washington, Bridge No. 12/915, is the first bridge of the to receive a 1/4 thin overlay. The polymer concrete used is by Polycarb. The deck was repaired and overlaid in June of 1986. Work on the thin overlay began on June 8 and was completed on June 20. A total of 6,477 S.Y. of overlay was involved. Traffic was accommodated at all times on the portion of the bridge not being overlaid. Construction progressed relatively smoothly per the inspector\'s report. The material permitted the contractor flexibility in the rate of installation and in starting and stopping the work. Width of installation was varied to accommodate temporary traffic lanes. Pavement skid tests and bond tests all proved satisfactory. Ninety-one percent of the resistivity tests exceeded the minimum required by the specifications. The majority of the test points that did not meet the minimum specified occurred at the beginning of the work, where the contractor attempted to apply the material with spray that apparently did not provide accurate proportionate mix of the epoxy components. Subsequent tests and reports delamination, half-cell, chloride content, and rutting values to the original deck survey values.

Authors:
Roper,T. H., Henley,E. H. Jr

Keywords:
bridge, bridge deck, bridge deck repairs, bridge decks, bridges, chloride, concrete, construction, contracts, Epoxy, experimental, half-cell, highway, lanes, overlay, overlays, pavement, polymer, polymer concrete, specification, specifications, survey, tests, thin overlay, traffic, transportation, Washington, Washington state, WSDOT


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Roper,T. H. WA-RD 114.1 Grays River Bridge At Roseburg - Thin Overlay 1987
Abstract:
The Washington State Department of Transportation will be conducting experimental field testing of several selected polymer concrete thin (1 1/4 inch) overlays over a ten-year period. The ploymer concrete material is manufactured by private industry firms and installed on selected bridge decks under standard WSDOT construction contracts. Approximately 21 bridges will be involved in the experiment; eight of these are included in federal participating projects as experimental features.The Grays River Bridge at Roseburg, Washington, Bridge is the second bridge of the federal aid projects to receive a thin concrete overlay. The polymer concrete used was Degadur 330, made by Degussa Company and installed by Floor. The deck was overlaid in August of 1986. Work on the thin overlay began on August 4, 1986 and was completed on August 5, 1986. A total of 586 S.Y. of overlay was placed. There was no traffic on the bridge during the overlay placement. The overlay contractor had a well trained crew and the overlay placement went very smoothly. The experience showed when the different operations of primer, overlay, and sealer were sequenced so that when one layer cured out, the next operation was ready to go. Friction tests and electrical resistivity tests were all satisfactory.

Authors:
Roper,T. H., Henley,E. H. Jr

Keywords:
bridge, bridge deck, bridge deck repairs, bridge decks, bridges, concrete, construction, contracts, experimental, friction, overlay, overlays, polymer, polymer concrete, sealer, tests, thin overlay, traffic, transportation, Washington, Washington state, WSDOT


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Peters,A. J. WA-RD 130.1 PlusRide Asphalt Pavement (SR 405/S Curves) 1987
Abstract:
This is the post construction and one year evaluation Report of being used as the wearing course on a bridge deck overlay under very high traffic volumes. A rubberized Class D Asphalt Concrete Pavement friction course was used on an adjacent bridge to compare against the PlusRide. The properties evaluated were friction resistance, noise, fatigue properties and deicing characteristics. The friction and noise properties are the same. The PlusRide has deeper ruts and large areas in the traveled lane have delaminated. The deicing characteristics have not been confirmed. The rubberized class ACP is performing better than the PlusRide.

Authors:
Peters,A. J., Schultz,R. L.

Keywords:
asphalt, asphalt concrete, Asphalt Concrete pavement, asphalt pavement, bridge, bridge deck, bridge deck overlay, bridges, Class D, concrete, construction, Deck, evaluation, fatigue, friction, friction course, noise, overlay, pavement, PlusRide, resistance, Rubberized, traffic, traffic volumes, volume


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Itani,R. WA-RD 155.1 Design of Continuous Bridges Using Precast, Prestressed Concrete Girders without Endblocks 1987
Abstract:
This study investigated the feasibility of eliminating endblocks from pretensioned continuos bridge girders. The removal of endblocks is estimated to reduce girder costs by 5 to 10 percent. The girders studied were the Washington State Department of Transportation\'s \"Series 14\". These girders are characterized by 5 inch thick webs and are prestressed with both harped and straight 1/2 inch diameter grade 270 stands. Previous research had recommended the elimination of endblocks for simple span bridges. This study dealt with continuous bridges.The research consisted test and a destructive laboratory test. The field test was used identify bases for the destructive testing. \"Series14 \" girder with endblocks and \"Series 60\" girders without endblocks were instrumented with strain gages and monitored from the time they manufactured to the time thel oads were tested on the bridge. The laboratory test was performed with a balanced cantilever arrangement using two \"14\" girders without without endblocks. The joint at the support was made continuous by providing deck reinforcement in a manner similar to reinforcing details used by WSDOT. Concentrated incrementally applied at a distance of 13 ft.10 inches from the continuous support. The modified girders performed effectively under applied loads. Therefore, endblocks may be removedfrom continuous Series \"14\" girders with normal diaphragms. The study recommends that one \"Series 14\" continuous girder without endblocks be designed and monitored through the various stages ofconstruction and service in another bridge.

Authors:
Itani,R., Hiremath,G. S., Vasisth,U.

Keywords:
base, bridge, bridges, concrete, construction, cost, costs, Deck, design, diaphragms, endblocks, field test, girders, loads, prestressed, prestressed concrete, Prestressing, pretensioned, reinforcement, research, span, transportation, Washington, Washington state, WSDOT


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Hoyle,R. J. Jr WA-RD 146.1 Stress Wave Inspection 1987
Abstract:
This report is designed to provide information to guide inspectors of wood highway structures in the use of stress wave inspection technology. It explains the methods and instruments used to measure the velocity of stress waves (sound) in wood. The characteristic behavior of sound waves in wood of various species, moisture content, preservative treatment and infection by wood destroying organisms is described. The important effects of the anatomy of wood and the orientation of grain and annual rings to the wave path are discussed to aid in the interpretation of measurements. Characteristics of the instrumentation essential to its calibration are explained and instruction is provided in the appropriate use of these tools. This report has been written to serve as a manual for \"on site \" stress wave inspection of the kind of wood structures found in highway systems. It is a compendium or experience in the field inspection of many wood buildings and highway bridges. Original research conducted to fill in voids in the published studies, is described in the Appendices.

Authors:
Hoyle,R. J. Jr, Rutherford,G. S.

Keywords:
behavior, bridge, bridges, calibration, grain, highway, insect damage, inspection, ITS, manual, nondestructive testing, research, sound waves, Stress waves, stresses, structures, systems, technology, termite damage, velocity, wood decay


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Gripne,D. WA-RD 106.1 Traffic Barrier Systems Service Level I (SL-1) Bridge Rail 1987
Abstract:
The Washington State Department of Transportation (WSDOT) designed and installed Service Level 1 (SL-1) bridge rails on three treated timber bridges in the state. To date there have been no accidents or maintenance problems reported at any of the modified bridges.

Authors:
Gripne,D.

Keywords:
accidents, bridge, Bridge rail modification, bridges, maintenance, Rail for Timber Bridge, systems, traffic, transportation, Washington, Washington state, WSDOT


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Gietz,R. H. WA-RD 117.1 Asphalt Concrete Class D Bridge Deck Overlays 1984
Abstract:
This study was conducted to determine the wear characteristics of bridge decks overlayed with Class D (open-graded) asphalt concrete. A total of 74 bridges were inspected and rated during the period May to August, 1984.This study was conducted to determine the wear characteristics of bridge decks overlayed with Class (open-graded) asphalt concrete. A total of 74 bridges were inspected and rated during the period May to August, 1984. A rating system was developed to allow a numerical comparison between bridges, and also to establish levels of tolerable differences. Values for a variety of problem areas were assigned in ascending order according to severity. Refer to page 10 for deficiency rating values, To use the system the bridge deck is inspected and values assigned according to visual observations. For example, if a bridge deck had some raveling, severe rutting and a transverse crack at the expansion joint, a rating of 5 (some raveling) 6 (severe rutting) + 2 (traverse expansion joint crack) = 13 would be applied. To further clarify the rating system used on page 4 through under the column headed \"Class of Defects\", the following examples are used. 1. On page 4, Bridge No. E had a rating of The rating total would be = 10, which is in the column headed \"Rating\". 2. On page 5, Bridge No. W had a rating of B-4. The rating total would be B (expansion dam failure) + 4 (some rutting). Since there is no numerical value for B the total is 4, which is listed in the column headed \"Rating\". After comparing ratings of all 74 bridges, three of serviceability were established, Categories A, and C, which are discussed in detail in the memo of August 13, 1984, on page 2 Photo Examples Rating 0-Category A -Bridge No. 90/59E-N -page 35 Rating 2 -Category A -Bridge No. -pages 51-52 Rating 6 -Category -Bridge No. -page 13 Rating 10 -Category B Bridge No. E -page 15 Rating 21 -Category C -Bridge No. N -pages 46-47

Authors:
Gietz,R. H.

Keywords:
asphalt, asphalt concrete, bridge, bridge deck, bridge deck overlay, bridge decks, bridges, Class D, concrete, Deck, overlay, overlays


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Gripne,D. WA-RD 106.2 Traffic Barrier Systems Service Level (SL-1) Bridge Rail 1983
Abstract:
The Washington State Department of Transportation (WSDOT) designed and installed Service Level 1 (SL-1) bridge rails on three treated timber bridges in the state. To date there have been no accidents or maintenance problems reported at any of the modified bridges.

Authors:
Gripne,D.

Keywords:
accidents, bridge, Bridge rail modification, bridges, maintenance, Rail for Timber Bridge, systems, traffic, transportation, Washington, Washington state, WSDOT


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Demich,G. F. WA-RD 020.1 Investigation Of Bridge Deck Deterioration Caused by Deicing Chemicals 1975
Abstract:
Forty-eight bridge decks were investigated for deterioration using visual , mechanical , electrical and chemical techniques. Data from the various techniques and the techniques themselves were compared and evaluated, resulting data base for Washington's bridges and recommendations for efficient condition determinations. Of the thirty-seven bridges for which all four types of inspection could be accomplished, twenty-nine were deteriorating as evidenced by delaminated concrete, and only two had non-deteriorating scores for all four techniques. None of the investigative techniques used in the project have been shown able to predict deck deterioration problems six to eight years in advance, our desired time period for project planning. The mechanical technique, commonly referred to as the "chain drag", is the method recommended for continued use by bridge inspection crews. Forty-eight bridge decks were investigated for deterioration using visual, mechanical, electrical and chemical techniques.

Authors:
Demich,G. F.

Keywords:
base, bridge, bridge deck, bridge decks, bridges, Chloride ion, delamination, half-cell potential, de-icing salt, Galvaic corrosion, concrete cover, bridge deck deterioration, concrete, condition, data, deck, deterioration, inspection, planning, Washington


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Sylvester,Robert O. WA-RD 007.1 Character And Significance Of Highway Runoff Waters 1004 1972
Abstract:
A study was conducted on the character and significance of highway runoff waters for the Washington Department of Highways and the Federal Highway Administration. This preliminary appraisal of runoff quality consisted of a literature review and critique plus a limited amount of field sampling on SR 520. Although a large amount of information is present in the literature concerning urban run off, there is very little strictly related to highways and their rights-of- way. Highway runoff is similar t o urban area runoff but may be higher in heavy metals and oil. A significant fraction of the heavy m e t an l s, oil and nutrients are adsorbed to the dust and dirt fractions and then may be removed by sedimentation. Runoff from the lake bridges should have a very insignificant effect on Lake Washington in comparison with the urban run off to the Lake. Recommendations are made for mitigating runoff effects and for conducting an intensive study of highway run off water quality and its significance.

Authors:
Sylvester,Robert O., DeWalle,Foppe B.

Keywords:
bridge, bridges, environment, heavy metals, highway, highway runoff, Highways, ITS, metals, quality, review, runoff, sampling, sedimentation, Study, urban, vehicle emissions, Washington, water quality


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Foss,Rene N. WA-RD 005.2 Tire Noise Properties And Two Resurfacing Materials Used By Highway Bridges For Repair Of Wear 1014 1972
Abstract:
The purpose of this study was to investigate the acoustic effects of two topping materials used on bridges in the Seattle area. One material was applied to the bridge on Interstate-5 which crosses the Duwamish River. It is an English product called Sprag-Grip which is supposed to have very good anti-skid properties, as well as the ability to stick to the road in thin layers thus making it suitable for the repair of worn surfaces. The other material is an epoxy -asphalt mixture which was applied to some sections of the Evergreen Point Floating Bridge over Lake Washington, particularly over sections where worn grating was causing excessive noise. Hopefully, this substance will be capable of long-term sticking in relatively thin layers. Of the two materials, it was found that the epoxy-asphalt topping on the Evergreen Point Floating Bridge was by far the quieter, and, at least as newly applied, proved to be very quiet at the road/tire interface. It is likely that this good acoustic performance is due to the smoothness of the surface rather than directly to the fact that the material contains epoxy. The role of the epoxy would be as an adhesive and to resist wear so that its original acoustic performance could be maintained for a considerable length of time. Spray-Grip, on the other hand, although slightly quieter than the rutted, worn roadway, was not as quiet as the original unworn road surface. Experimental Procedures The primary contribution of a road surface to the noise 'radiating from a vehicle is in the noise emitted at the road/tire interface; therefore, the major thrust of this effort was directed toward measuring this effect. There also were some measurements of community noise levels before and after the resurfacing of the bridges. The tire noise tests were taken on the right rear wheel of a Laboratory station wagon upon which a new tire was mounted (a Pennsylvania Patrol Special, size 8. 55-15). (The tread design and depth of this tire are shown on page 2. ) This tire was mounted on a wheel and used on the vehicle only daring tests. Between tests it was stored so that unnecessary wear would not change its acoustic character-teristics. The noise pickup device was a specially baffled microphone located about 7 inches from the road/tire interface by a bracket holding it on the outside of the tire. One of the major problems in making noise measurements of this type is to have a microphone that will pick up only tire noise and be baffled from wind noise. This problem has been solved by a microphone baffling system especially designed by this Laboratory.

Authors:
Foss,Rene N.

Keywords:
asphalt, bridge, bridges, community noise, design, Epoxy, experimental, floating bridge, highway, ITS, materials, mixture, noise, Noise Levels, noise measurements, performance, repair, roadway, seattle, Study, System, tests, tire, tire noise, Washington, wind, Wind Noise


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