Journal of Geological Sciences and Applied Geology

Slope stability has been a problem that studied on geotechnical works for the uncertainties such as varieties of soil behaviours to unpredicted failure of measurements and samplings. The Limit Equilibrium Method (LEM) has been popular for decades for its convenience but cannot determine displacement thus the result could be uncertain. As computational calculations have been developed, the Finite Element Method (FEM) began to use as a tool to not only determine factor of safety, but also determine displacement and forces that affect slope’s stability. This research was done to analysed slope stability using Shear Strength Reduction (SSR) and compared it to general method such as Limit Equilibrium Method (LEM). The research was conducted on a section in Sadawarna DAM ring road area, Subang, West Java. Slope on research area was divided into two layers with the bottom layer relatively non-cohesive compared to the top of layer. Both soil however dominantly consist with fine grain soil such as silt and clay. The upper layer of slope can contain more water with liquid limit of 73,46% compared to the lower layer with 68,27% liquid limit.  Simulation result showed slope that analysed using SSR method has Factor of Safety (FoS) 0,12 lower than LEM method. SSR method could be used to analysed pessimistic value at worst scenario and could predicted deformation of slope.

Allison, C., Sidle, R. C., & Tait, D. (2004). Application of Decision Analysis to Forest Road Deactivation in Unstable Terrain. Environmental Management, 33(2), 173–185.

Bishop, A. W. (1955). The Use of the Slip Circle in the Stability Analysis of Slopes. Geotechnique, 5(1), 7–17.

Cala M. & Flisiak J. (2003). Complex geology slope stability analysis by shear strength reduction. FLAC and Numerical Modelling in Geomechanics.

Dawson, E., Roth, W., & Drescher, A. (1999). Slope Stability Analysis by Strength Reduction. Geotechnique, 49(6), 835–840.

Djadja, & Hernawan. (1996). Peta Geologi Teknik Lembar Bandung, Jawa Barat (Skala 1:100,000). Direktorat Geologi Tata Lingkungan.

Duncan, J. M. (1996). State of the Art : Limit Equilmrium and Finite Element Analysis of Slopes. Journal of Geotechnical Engineering, July, 577–596.

Duncan, J. M., & Wright, S. G. (1980). The Accuracy of Equilibrium Methods of Slope Stability Analysis. Engineering Geology, 16(1–2), 5–17.

El-Ramly, H., Morgenstern, N. R., & Cruden, D. M. (2002). Probabilistic Slope Stability Analysis for Practice. Canadian Geotechnical Journal, 39(3), 665–683.

Fellenius, B. H. (2023). Basics of Foundation Design (Issue March).

Matsui, T., & San, K.-C. (1992). Finite Element Slope Stability Analysis by Shear Strength Reduction Technique. Japanese Society of Soil Mechanics and Foundation Engineering, 32, 50–70. /

Morgenstern, N. R., & Price, V. E. (1965). The Analysis of the Stability of General Slip Surfaces. Geotechnique, 15(1), 77–93.

Salunkhe, D. P., Bartakke, R. N., Chvan, G., & Kothavale, P. R. (2017). An Overview on Methods for Slope Stability Analysis. International Journal of Engineering Research and Technology, 6(03), 528–535.

Silitonga, P. . (1973). Peta Geologi Lembar Bandung, Jawa (Skala 1:100,000). Pusat Penelitian dan Pengembangan Geologi.

Sitepu, D. V., & Pontan, D. (2021). Identifikasi Faktor Risiko Pada Pelaksanaan Proyek Pembangunan Sadawarna Paket II. Prosiding Seminar Intelektual Muda, 2(1), 59–64.

Supandi, Zakaria, Z., Sukiyah, E., & Sudradjat, A. (2018). The Correlation of Exposure Time and Claystone Properties at the Warukin Formation Indonesia. International Journal of GEOMATE, 15(52), 160–167.

Veubeke, B. F. de. (1964). Displacement and Equilibrium Models in Finite Element Method. Universite de Liege.

Zakaria, Z., & Jihadi, L. H. (2017). Peran Ilmu Dasar dalam Geoteknik untuk Menunjang Pembangunan Berkelanjutan yang Berwawasan Lingkungan. Bulletin of Scientific Contribution, 14(3), 239.

Zakaria, Z., Sophian, I., Sabila, Z. S., & Jihadi, L. H. (2018). Slope Safety Factor and Its Relationship with Angle of Slope Gradient to Support Landslide Mitigation at Jatinangor Education Area, Sumedang, West Java, Indonesia. IOP Conference Series: Earth and Environmental Science, 145(1).

Zhao, J., Duan, X., Ma, L., Zhang, J., & Huang, H. (2020). Importance Sampling for System Reliability Analysis of Soil Slopes Based on Shear Strength Reduction. Georisk, 15(4), 287–298.