Muhsiung Chang scite author profile

A three-dimensional (3D) method of analysis of the stability of slopes was developed based on the sliding mechanism observed in the 1988 failure of the Kettleman Hills landfill slope (Kettleman City, California) and the associated model studies. By adopting a limit equilibrium concept, the method assumes the sliding mass as a block system in which the contacts between blocks are inclined. The lines of intersection of the block contacts are assumed to be parallel, which enables the sliding kinematics. In consideration of the differential straining between blocks, the shear stresses on the slip surface and the block contacts are evaluated based on the degree of shear strength mobilization on these contacts. The overall factor of safety is calculated based on the force equilibrium of the individual blocks and the entire block system as well. Based on comparisons with a series of hypothetical 3D and 2D problems with known solutions, the method was generally found to be accurate in predicting the stability of slopes involving a translational type of sliding failure. For rotational sliding failures in clays, however, the method appears to slightly overestimate the calculated factor of safety; up to as much as 10% in a typical problem examined in this study.Key words: slope stability, 3D method, limit equilibrium, block kinematics, strain incompatibility.

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Comparison of SPT-N-based analysis methods in evaluation of liquefaction potential during the 1999 Chi-chi earthquake in Taiwan

Chang

Kuo

Shau³

et al. 2011

Computers and Geotechnics

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Preliminary study on the 2003 slope failure in Woo-wan-chai Area, Mt. Ali Road, Taiwan

Chang

Chiu

Lin

et al. 2005

Engineering Geology

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Muhsiung Chang

Understanding of Petobo liquefaction flowslide by 2018.09.28 Palu-Donggala Indonesia earthquake based on site reconnaissance

Three-dimensional stability analysis of the Kettleman Hills landfill slope failure based on observed sliding-block mechanism

A 3D slope stability analysis method assuming parallel lines of intersection and differential straining of block contacts

Comparison of SPT-N-based analysis methods in evaluation of liquefaction potential during the 1999 Chi-chi earthquake in Taiwan

Preliminary study on the 2003 slope failure in Woo-wan-chai Area, Mt. Ali Road, Taiwan

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