Use of Fabric Reinforced Soil Wall for Integral Abutment Bridge End Treatment

Reid, R. A.; Soupir, S P; Schaefer, V R; South Dakota State University. Department of Civil and Environmental Engineering

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ROSA P serves as an archival repository of USDOT-published products including scientific findings, journal articles, guidelines, recommendations, or other information authored or co-authored by USDOT or funded partners. As a repository, ROSA P retains documents in their original published format to ensure public access to scientific information.

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Use of Fabric Reinforced Soil Wall for Integral Abutment Bridge End Treatment

1999-08-15
By Reid, R. A. ; Soupir, S P ; Schaefer, V R

[PDF-1.00 MB]

English

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Creators:

Reid, R. A. ; Soupir, S P ; Schaefer, V R

Reid, R. A. ; Soupir, S P ; Schaefer, V R Less -
Corporate Creators:

South Dakota State University. Department of Civil and Environmental Engineering
Corporate Contributors:

South Dakota. Department of Transportation. Office of Research
Subject/TRT Terms:

[+]

Bridge Abutments Bridge Approaches Design Earth Walls Geotextiles Material Reinforcement Trench Backfill
Publication/ Report Number:

SD96-02-F
Resource Type:

Tech Report
Geographical Coverage:

United States ; South Dakota

United States ; South Dakota Less -
Edition:

Final; May 1996 to August 1999
Corporate Publisher:

South Dakota. Department of Transportation
Abstract:

The bump at the end of the bridge has long plagued motorists, designers, and maintenance personnel. The bump develops from the differential movements of the approach road and the bridge abutment. This movement produces discomfort to motorists, increased damage to vehicles, traffic hazards, and increased maintenance costs. This damage done by the movement of these systems can literally impair the structural integrity of the bridge in extreme cases. The problem is experienced in all states and is a recurring problem for transportation officials in the state of South Dakota. Previous research has shown that the bump was caused by the development of voids under the bridge approach slabs in integral abutment bridges. Void development was shown to be a direct consequence of the thermal-induced movement of the bridge beam/abutment system. To accommodate this mechanism, the State of South Dakota implemented a new design using a geotextile reinforced soil wall in the abutment backfill to create a gap between the backfill soil and bridge abutment. The objective of this research was to determine if constructing an approach fill to an integral abutment structure with a void between the abutment wall and the fill would alleviate development of voids under the approach slabs to the end of the bridge. Additionally, the research was to investigate alternative design methodologies.
Format:

PDF
Collection(s):

US Transportation Collection
Main Document Checksum:

[+]

urn:sha-512:29f8f4c2691c4b6512c2f625f881181f6a95892e948bbfb42f735c4ed2da8c26014f936510ef08d6609788ed6a1c9a11c4a59c6c3cd1fa64fb284b6e25d2054b
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Use of Fabric Reinforced Soil Wall for Integral Abutment Bridge End Treatment

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