A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Stability of Embankments on Clay Foundations
Ninety-one well-documented geotechnical failures are reviewed. The case studies involved the failure of embankments, footings and load tests, excavated slopes, and natural slopes. Seventy-five of the geotechnical failures had been analyzed using total stress analysis, and sixteen using effective stress analysis. Based on a review of these case studies, there are discrepancies between predicted and actual stabilities of geotechnical structures and there is a tendency to overestimate the factor of safety. Differences that may arise between predicted and actual performances are discussed and examined and guidelines are proposed for evaluating the potential of successfully applying total stress and effective stress analyses. The simple guidelines make use of index tests such as the liquid limit, plastic limit, natural water content, and liquidity index. With regard to embankments on clay foundations, assumptions commonly made regarding the shear strength of the embankment are discussed. A mathematical model based on embankment cracking is presented in terms of effective stress, although total stress conditions also may be analyzed. The proposed embankment failure model equations have been programmed for the computer and form an integral part of a newly developed, generalized slope stability computer model and program (HOPK-I).
Stability of Embankments on Clay Foundations
Ninety-one well-documented geotechnical failures are reviewed. The case studies involved the failure of embankments, footings and load tests, excavated slopes, and natural slopes. Seventy-five of the geotechnical failures had been analyzed using total stress analysis, and sixteen using effective stress analysis. Based on a review of these case studies, there are discrepancies between predicted and actual stabilities of geotechnical structures and there is a tendency to overestimate the factor of safety. Differences that may arise between predicted and actual performances are discussed and examined and guidelines are proposed for evaluating the potential of successfully applying total stress and effective stress analyses. The simple guidelines make use of index tests such as the liquid limit, plastic limit, natural water content, and liquidity index. With regard to embankments on clay foundations, assumptions commonly made regarding the shear strength of the embankment are discussed. A mathematical model based on embankment cracking is presented in terms of effective stress, although total stress conditions also may be analyzed. The proposed embankment failure model equations have been programmed for the computer and form an integral part of a newly developed, generalized slope stability computer model and program (HOPK-I).
Stability of Embankments on Clay Foundations
T. C. Hopkins (author)
1986
75 pages
Report
No indication
English
Highway Engineering , Civil Engineering , Embankments , Failure , Stability , Slopes , Stress analysis , Shear strength , Clays , Soil mechanics , Safety , Highways
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