Load Distribution and Fatigue Cost Estimates of Heavy Truck Loads on Louisiana State Bridges
The bridge in this study was evaluated and a monitoring system was installed to investigate the effects of heavy loads and the cost of fatigue for bridges on state highways in Louisiana. Also, this study is used to respond to Louisiana Senate Concurrent Resolution 35 (SCR-35). The superstructure of the bridge in this study was evaluated for safety and reliability under four different kinds of truck configuration and loads hauling sugarcane. The bridge model was verified by performing live load tests using 3S3 trucks with a gross vehicular weight (GVW) of 100,000 lb. on the structure. The bridge finite element model was analyzed under the different kinds of loading and the effects were listed and compared. The results of the analyses show that the pattern of response of the bridge under the different cases follows the same trend. Among the four different cases of loading configurations, case 4, which was GVW =148,000 lb. and a vehicle length of 92 ft., produced the largest tensile and compressive stresses in the members. The results from the bridge deck analyses confirm that the bridge deck is under a stable stress state, whether the stresses are in the tension zone or the compression zone. The heavy load as indicated in SCR-35 will cause damage to bridges. The data from the monitoring system indicates that the average number of heavy loads during October, November, and December is 3.5 times higher than the rest of the year. The bridges are exposed to high cycles of repetition of heavy loads that will reduce the life span of the bridges by about 50%. The bridges that are built to last 75 years will be replaced after about 40 years in service. This seasonal impact is due to the sugarcane harvest and confirms the cost of fatigue, $0.9 per truck per trip per bridge, as determined in the previous study. Based on the results of the studies presented in this report, increasing the gross vehicle weight of sugarcane trucks is not recommended. The heavy loads indicated in SCR-35 will cause premature fatigue damage to the main structural members and could cause their eventual structural failure. In addition, the majority of the Louisiana bridges currently in service were designed to accommodate lower loads than the bridge tested on this project. Therefore, based on the test results, one should expect that the proposed trucks to significantly shorten the remaining life span of Louisiana bridges. All these bridges should be rehabilitated prior to implementing SCR 35. The data from the monitoring system will provide a good source of information to review the current serviceability criteria used by the Louisiana Department of Transportation and Development (LADOTD) for the design of prestressed concrete bridge girders.
- Record URL:
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- Summary URL:
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Corporate Authors:
Louisiana Tech University, Ruston
Civil Engineering Program, College of Engineering and Science
Ruston, LA United States 71272-0046Louisiana Department of Transportation
P.O. Box 94245
1201 Capitol Access Road
Baton Rouge, LA United States 70804-9245Federal Highway Administration
1200 New Jersey Avenue, SE
Washington, DC United States 20590 -
Authors:
- Saber, Aziz
- Publication Date: 2013-11
Language
- English
Media Info
- Media Type: Digital/other
- Edition: Final report
- Features: Appendices; Figures; Photos; References; Tables;
- Pagination: 198p
Subject/Index Terms
- TRT Terms: Axle loads; Concrete bridges; Failure; Gross vehicle weight; Live loads; Trucks; Weigh in motion
- Geographic Terms: Louisiana
- Subject Areas: Bridges and other structures; Highways; I24: Design of Bridges and Retaining Walls;
Filing Info
- Accession Number: 01504278
- Record Type: Publication
- Report/Paper Numbers: FHWA/LA.13/509, LTRC Project Number: 10-1ST, State Project Number: 736-99-1662
- Files: TRIS, ATRI, USDOT, STATEDOT
- Created Date: Jan 24 2014 2:29PM