Development of a Strategy to Address Load-posted Bridges Through Reduction in Uncertainty in Load Ratings
Development of a Strategy to Address Load-posted Bridges Through Reduction in Uncertainty in Load Ratings

Author: Mary Beth Deisz Hueste

Publisher:

Published: 2022

Total Pages: 0

ISBN-13:

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According to the 2016 National Bridge Inventory data, the state of Texas houses over 2100 bridges posted at load levels below the legal limit. While load postings are generally a management issue, there can be commerce, traffic, and emergency egress issues. For this reason, removing postings is always of interest. Posted structures come in all shapes and sizes, were built in different eras and environments, and exhibit vastly different structural behaviors. As such, there is no clear-cut single solution for addressing the possibility of removing postings. In this study, strategies were developed to reduce uncertainty in load rating procedures in a safe and appropriate manner to potentially increase or remove the load postings of typical steel and concrete bridges. The first phase of the project focused on the detailed review and synthesis of the relevant literature, analysis of the load-posted bridge inventory in Texas, and conducting basic load rating analysis of selected typical bridge types to identify and examine controlling limit states and areas of opportunities that could lead to an increase or removal of load posting. This Volume 1 research report fully documents the state-of-the-practice and state-of-the-art on load rating of existing bridges, the review and synthesis of the bridge characteristics of load-posted bridges in Texas, and the basic load rating for selected representative bridges to identify the controlling limit states that likely lead to an increased operating load for these bridges.

Development of a Strategy to Address Load-posted Bridges Through Reduction in Uncertainty in Load Ratings
Development of a Strategy to Address Load-posted Bridges Through Reduction in Uncertainty in Load Ratings

Author: Mary Beth Deisz Hueste

Publisher:

Published: 2022

Total Pages: 0

ISBN-13:

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Maintaining the functionality of the transportation infrastructure depends on the successful management of aging bridge assets. Departments of Transportation rely on the load rating process to evaluate the sufficiency of the bridge structures in their state, and post load restrictions if the capacity of a bridge does not meet the maximum load effect based on the current legal loads. Removing load postings is always of interest because there can be commerce, traffic, and emergency egress issues due to rerouting of vehicles. Posted structures come in various shapes and sizes, built in different eras and environments, and exhibit vastly different structural behaviors. As such, there is no clear-cut single solution for addressing the possibility of removing postings. In this study, strategies have been developed to reduce uncertainty in load rating procedure in a safe and appropriate manner to potentially increase or remove the load postings of typical steel and concrete bridges. The Volume 1 Report documents findings including a review of the state-of-the-practice and state-of-the-art for load rating existing bridges, a review and synthesis of the bridge characteristics of load posted bridges in Texas, and the basic load rating analysis conducted for selected representative bridges to identify the controlling limit states. The Volume 2 Report provides details of further study for typical bridges including refined analysis for more accurate prediction of load distribution, load testing, model updating and calibration, and refined load rating analysis. This Volume 3 Report provides specific recommendations for refined load rating analysis for the four selected bridges types, and provides detailed refined load rating examples for each bridge type. The effect of each refinement on the revised load ratings is evaluated, and the implications for potentially increasing the posted loads or removal of load posting are discussed.

Development of a Strategy to Address Load-posted Bridges Through Reduction in Uncertainty in Load Ratings
Development of a Strategy to Address Load-posted Bridges Through Reduction in Uncertainty in Load Ratings

Author: Mary Beth Deisz Hueste

Publisher:

Published: 2022

Total Pages: 0

ISBN-13:

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Maintaining the functionality of the transportation infrastructure depends on the successful management of aging bridge assets. Departments of transportation rely on the load rating process to evaluate the sufficiency of the bridge structures in their state, and they post load restrictions if the capacity of a bridge does not meet the maximum load effect based on current legal loads. Removing load postings is always of interest because there can be commerce, traffic, and emergency egress issues due to rerouting of vehicles. Posted structures come in various shapes and sizes, are built in different eras and environments, and exhibit vastly different structural behaviors. Thus, there is no clear-cut single solution for addressing the possibility of removing postings. In this study, strategies were developed to reduce uncertainty in load rating procedures in a safe and appropriate manner to potentially increase or remove the load postings of typical steel and concrete bridges. The Volume 1 report (Hueste et al. 2019a) documented findings that included a review of the state-of-the practice and state-of-the-art for load rating existing bridges, a review and synthesis of the bridge characteristics of load-posted bridges in Texas, and the basic load rating analysis conducted for selected representative bridges to identify the controlling limit states. This Volume 2 report documents further study for typical bridges, including refined analysis for more accurate prediction of load distribution, load testing, model updating and calibration, and refined load rating analysis. The load testing of the selected load-posted bridges, along with model updating and calibration based on the field measurements, is used to determine refined load ratings to compare with the basic load ratings. The results are reviewed with respect to the implications and opportunities for load rating these bridges and similar bridge structures to potentially increase the posted loads or remove the load restrictions.

TxDOT Project 0-6955
TxDOT Project 0-6955

Author:

Publisher:

Published: 2022

Total Pages: 0

ISBN-13:

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Images of slides presented at a Texas Department of Transportation workshop. Includes findings of a three-part study (Project 0-6955) performed by the Texas A&M Transportation Institute in cooperation with the Texas Department of Transportation and the Federal Highway Administration. In this study, strategies were developed to reduce uncertainty in load rating procedures to potentially remove the load postings of typical steel and concrete bridges in Texas that are posted at load levels below the legal limit. The presentation outlines several aproaches for reviewing load postings for steel and concrete bridges using refined methods, and discusses model updating, and impact of the methods on rating factors. The presentation ends with refined load rating guidelines that were developed from this study, along with load rating examples, and recommendations.

Bridge Traffic Loading
Bridge Traffic Loading

Author: Eugene OBrien

Publisher: CRC Press

Published: 2021-12-03

Total Pages: 236

ISBN-13: 1000459918

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There is considerable uncertainty about what level of traffic loading bridges should be designed for. Codes specify notional load models, generally to represent extreme levels of normal traffic, but these are often crude and have inconsistent levels of safety for different load effects. Over the past few decades, increasing quantities of reliable truck weight data has become available and it is now possible to calculate appropriate levels of bridge traffic loading, both for specific bridges and for a road network. Bridge Traffic Loading brings together experts from all over the world to deliver not just the state-of-the-art of vertical loading, but also to provide recommendations of best-practice for all the major challenges in the field – short-span, single and multi-lane bridge loading, dynamic allowance and long-span bridges. It reviews issues that continue to be debated, such as which statistical distribution is most appropriate, whether free-flowing or congested traffic governs and dealing with future traffic growth. Specialist consultants and bridge owners should find this invaluable, as will regulators.

Load Rating Strategies for Bridges With Limited Or Missing As-Built Information
Load Rating Strategies for Bridges With Limited Or Missing As-Built Information

Author: Devin K. Harris

Publisher:

Published: 2020

Total Pages: 0

ISBN-13:

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Load rating is the process of determining the safe load-carrying capacity of a bridge; however, when plans and details are insufficient to determine the overall capacity of the structure, alternative methods must be used to infer what the live load capacity is. Two viable methods allowed by the AASHTO Manual for Bridge Evaluation are the commonly used but subjective engineering judgement and the experimentally based proof testing. However, these methods suffer from limitations. Engineering judgement typically is not based on physical phenomena and creates a degree of risk in unconservative estimates or unnecessarily restricts traffic and commerce if estimates are overly conservative. On the contrary, proof testing can cause damage during testing, tends to be expensive, and cannot be extrapolated to future performance. Thus, the objective of this study was to develop rational engineering approaches for load rating structures within the Virginia Department of Transportation (VDOT) inventory for which limited as-built information is available. The initial phase of the investigation focused on categorizing the VDOT inventory to determine the types of structures that are likely to be missing information necessary for an analytical load rating, which were identified to be short span reinforced concrete slab or T-beam designs. Subsequent phases emphasized two main approaches to load rating: (i) structural identification frameworks based on finite element model updating; and (ii) leveraged vibration response characterization. Both approaches emphasized estimating unknown characteristics of these types of structures for use in a traditional analytical load rating. These unknown parameters include modulus of elasticity and strength of concrete as well as cross-sectional area of steel reinforcement. These estimates can ultimately be used to provide a rational estimate of load ratings. All approaches were evaluated on two slab and two T-beam structures in varying condition states, which had sufficient plans available, but were treated as having varying degrees of unknown details. The results illustrated that the finite element model updating method generated load ratings that were within 0% to -17% of the load ratings developed according to conventional calculations, with negative differences indicating lower rating factor estimates; and the vibration-based simplified method led to results with a percent difference ranging from 16% to -16%. It was also shown that instrumenting bridges with a limited number of sensors is sufficient for successful implementation of the developed methods. The results from the study have been synthesized into recommendations for VDOT to perform load ratings of structures with insufficient plans or information, with the goal of minimizing the degree and complexity of experimental measurement as well as simplifying the tools for performing the analyses of these structures as much as feasible.

Bridge Load Rating Utilizing Experimental Data and Finite Element Modeling
Bridge Load Rating Utilizing Experimental Data and Finite Element Modeling

Author: R. Blake Greene

Publisher:

Published: 2013

Total Pages: 115

ISBN-13:

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Nearly one-quarter of Alabama's bridges are deemed structurally deficient or functionally obsolete. An additional seven percent of Alabama's bridges were posted bridges in 2010. (Federal Highway Administration, 2011) Accurate bridge load rating can potentially reduce, and even remove, bridge postings throughout the state. Analytical structural bridge models were used to define new load ratings for ALDOT Bridges 005248, 005318, and 012296. With past methodology, engineers' ratings tend to be inaccurate. This is due to the indefinite information in regards to actual traffic loading on bridges. This inaccuracy can lead to over-estimates of bridge safety or on the contrary, excessive conservatism in repairs. Gaining further knowledge on the actual behavior of bridges with the help of analytical models can help reduce inaccuracy in calculation. The University ransportation Center for Alabama (UTCA) tasked The University of Alabama at Birmingham (UAB) to verify analytical models from which accurate load rating could be obtained. ALDOT performed load testing and calculated ratings for bridges 005248 and 005318. The UAB team assisted ALDOT in gathering strain data for bridge 012296 via the Bridge Weigh-In-Motion (BWIM) technique. Bridge models for 005248 and 005318 proved capable of accurate load rating per data comparison as presented, and 012296 was load rated using Finite Element Modeling.

Review of Load Rating and Posting Procedures and Requirements
Review of Load Rating and Posting Procedures and Requirements

Author: Mark Bowen

Publisher:

Published: 2014-12-31

Total Pages:

ISBN-13: 9781622603220

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All states are required to load rate and post bridges in order to comply with federal standards. Load ratings are performed in order to determine the safe live load capacity of a bridge, considering the existing conditions of the bridge. Based on the load ratings, the bridge is evaluated for load posting or strengthening. The Indiana Department of Transportation (INDOT) was notified that their practice for load rating and posting did not satisfy 23 CFR 650.313. The purpose of this study was to summarize and compare load rating and posting procedures used in other states and to provide recommendations and information necessary to modify the load rating and posting procedures in INDOT's Bridge Inspection Manual (Part 3: Load Rating) in order to satisfy 23 CFR 650.313.In order to understand how load rating and posting is performed in other states, department of transportation (DOT) manuals were examined, questionnaires were sent to states, and additional states of interest were surveyed. The American Association of State Highway and Transportation Officials (AASHTO) The Manual for Bridge Evaluation, Second Edition, which is the current specification for load rating and posting bridges was reviewed, as well as older AASHTO bridge evaluation manuals. Based on this information, revisions were proposed to the INDOT Bridge Inspection Manual (Part 3: Load Rating) in order to eliminate current deficiencies.

Bridge Load Rating
Bridge Load Rating

Author: Rafael Armendariz

Publisher:

Published: 2018-08-15

Total Pages:

ISBN-13: 9781622604999

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The inspection and evaluation of bridges in Indiana is critical to ensure their safety to better serve the citizens of the state. Part of this evaluation includes bridge load rating. Bridge load rating, which is a measure of the safe load capacity of the bridge, is a logical process that is typically conducted by utilizing critical information that is available on the bridge plans. For existing, poorly-documented bridges, however, the load rating process becomes challenging to adequately complete because of the missing bridge information. Currently, the Indiana Department of Transportation (INDOT) does not have a prescribed methodology for such bridges. In an effort to improve Indiana load rating practices INDOT commissioned this study to develop a general procedure for load rating bridges without plans. The general procedure was developed and it was concluded that it requires four critical parts. These parts are bridge characterization, bridge database, field survey and inspection, and bridge load rating. The proposed procedure was then evaluated on two bridges in Indiana that do not have plans as a proof of concept. As a result, it was concluded that load rating of bridges without plans can be successfully completed using the general procedure. A flowchart describing the general procedure was created to make the load rating process more user-friendly. Additional flowcharts that summarize the general procedure for different type of bridges were also provided.