Prediction and Rehabilitation of Highway Embankment Slope Failures in a Changing Climate [Supporting Dataset]

Jafari, Navid H; Puppala, Anand J.; Transportation Consortium of South-Central States (Tran-SET) University Transportation Center for Region 6; Louisiana State University (Baton Rouge, La.); University of Texas at Arlington

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Prediction and Rehabilitation of Highway Embankment Slope Failures in a Changing Climate [Supporting Dataset]

Details:

Creators:

Jafari, Navid H ; Puppala, Anand J.

Jafari, Navid H ; Puppala, Anand J. Less -
Corporate Creators:

Transportation Consortium of South-Central States (Tran-SET) University Transportation Center for Region 6 ; Louisiana State University (Baton Rouge, La.) ; University of Texas at Arlington

Transportation Consortium of South-Central States (Tran-SET) University Transportation Center for Region 6 ; Louisiana State University (Baton Rouge, La.) ; University of Texas at Arlington Less -
Corporate Contributors:

United States. Department of Transportation. Office of the Assistant Secretary for Research and Technology ; United States. Department of Transportation. University Transportation Centers (UTC) Program

United States. Department of Transportation. Office of the Assistant Secretary for Research and Technology ; United States. Department of Transportation. University Transportation Centers (UTC) Program Less -
Subject/TRT Terms:

[+]

Clay Soils Climate Change Cracking Data Files Embankments Guidelines Highways Lessons Learned Moisture Content Rehabilitation (Maintenance) Shear Strength Slope Failure
Publication/ Report Number:

17GTLSU04
Resource Type:

Dataset
Geographical Coverage:

Louisiana ; Texas ; United States

Louisiana ; Texas ; United States Less -
Corporate Publisher:

Transportation Consortium of South-Central States
Abstract:

Highway slopes constructed with clayey soil are prone to desiccation cracks due to wetting and drying weather cycle, which allows greater moisture infiltration into the embankment from precipitation. Fissures formed due to extended wetting and drying cycles allow water to seep deeper into the soil than surficial wetting and increase the water content. This increases the moisture content in the soil and results in reduction in shear strength to the fully softened strength. On the other hand, development of desiccation cracks and reduction of the soil matric suction ultimately result in higher hydraulic conductivity value which causes development of higher pore water pressure. As the moisture content of the clayey soil increases, the strength reduces to a fully softened shear strength that causes frequent shallow and medium slope failures that are oriented approximately parallel to the surface of the embankment. Hence, the fully softened strength of Louisiana and Texas soils need to be quantified to develop a predictive tool for identifying high-risk zones of highway embankments. Given the documented failures in Texas and Louisiana, this research project is focused on investigating past failures to develop lessons learned and guidelines that can be implemented in the predictive framework. The total size of the described zip file is 102 MB. Docx files are document files created in Microsoft Word. These files can be opened using Microsoft Word or with an open source text viewer such as Apache OpenOffice. Files with the .xlsx extension are Microsoft Excel spreadsheet files. These can be opened in Excel or open-source spreadsheet programs.
Content Notes:

National Transportation Library (NTL) Curation Note: As this dataset is preserved in a repository outside U.S. DOT control, as allowed by the U.S. DOT's Public Access Plan (https://doi.org/10.21949/1503647) Section 7.4.2 Data, the NTL staff has performed NO additional curation actions on this dataset. The current level of dataset documentation is the responsibility of the dataset creator. NTL staff last accessed this dataset at its repository URL on 2022-11-11. If, in the future, you have trouble accessing this dataset at the host repository, please email NTLDataCurator@dot.gov describing your problem. NTL staff will do its best to assist you at that time.
Format:

ZIP
Funding:

69A3551747106
Collection(s):

University Transportation Centers
Main Document Checksum:

[+]

urn:sha256:e3b0c44298fc1c149afbf4c8996fb92427ae41e4649b934ca495991b7852b855

English

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Prediction and Rehabilitation of Highway Embankment Slope Failures in a Changing Climate [Supporting Dataset]

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