Application of an optimum design technique for determining the coefficient of consolidation by using piezocone test data |
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Authors: | YS Kim SR Lee YT Kim |
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Institution: | Department of Civil Engineering, Korea Advanced Institute of Science and Technology, Taejon 305-701, South Korea |
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Abstract: | For normally consolidated clay, several researchers have developed a number of theoretical time factors to determine the coefficient of consolidation from piezocone test results. However, depending on assumptions and analytical techniques, it could vary considerably, even for a specific degree of consolidation. In this paper a method is proposed to determine a consistent coefficient of consolidation by applying the concept of an optimum design technique over all ranges of the degree of consolidation. Initial excess pore pressure distribution is assumed to be capable of being obtained by the successive spherical cavity expansion theory. The dissipation of pore pressure is simulated by means of a two-dimensional linear-uncoupled axi-symmetric consolidation analysis. The minimization of differences between measured and predicted excess pore pressure was carried out by the BFGS unconstrained optimum design algorithm with a one-dimensional golden section search technique. By analyzing numerical examples and in-situ test results, it was found that the adopted optimum design technique gives consistent and convergent results. |
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Keywords: | Consolidation Clay Porosity Pressure effects Numerical analysis Algorithms Mechanical permeability Computer simulation Pore pressure Optimum design Piezocone testing |
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