References
- Arellano D., Stark T. D. (2000) Importance of three-dimensional slope stability analysis in practice, [In:] Griffiths et al (Eds.), Slope Stability 2000, GSP 101, Reston, ASCE, 18–32.10.1061/40512(289)2
- Bober L., Thiel K., Zabuski L. (1997) Landslide phenomena in the Polish Carpathian Flysch: Geological and engineering properties of selected landslides, Wydawnictwo IBW PAN, Gdańsk, 1997 (in Polish).
- Bober L., Zabuski L. (1993) Flysch Slope Classification from Viewpoint of the Landslide Prediction, Proc. Int. Symp. “Geotechnical Engineering of Hard Soils-Soft Rocks”, Athens 1993, A.A. Balkema, Rotterdam – Brookfield, Vol. 2, 1065–1072.
- Chen R. H., Chameau J. L. (1982) Three-dimensional limit equilibrium analysis of slopes, Geotechnique, 32 (1), 31–40.10.1680/geot.1983.33.1.31
- Dauksza L., Kotarba A. (1973) An analysis of the influence of fluvial erosion in the development of landslide slope, Studia Geomorph. Carpatho-Balcanica, No.7, 91–104.
- Detournay Ch., Hart R. (eds.) (1999) FLAC and Numerical Modeling in Geomechanics, Proc. Int. FLAC Symp. on Numerical Modeling in Geomechanics, Minneapolis, Sept. 1999, Balkema/Rotterdam/Brookfield.
- Griffiths D. V., Marquez R. M. (2007) Three-dimensional slope stability analysis by elasto-plastic finite elements, Geotechnique, 57 (6), 537–546.10.1680/geot.2007.57.6.537
- Hungr O., Salgado F. M., Byrne P. M. (1989) Evaluation of three-dimensional method of slope stability analysis, Can. Geotech. J.. 26 (4), 679–686.10.1139/t89-079
- Itasca (1997) FLAC3D User’s Manual, Version 2, Minneapolis, USA.
- Lam L., Fredlund D. G. (1993) A general limit equilibrium model for three-dimensional slope stability analysis, Can. Geotech. J., 30 (6), 905–919.10.1139/t93-089
- Silvestri V. (2006) A three-dimensional slope stability problem in clay, Can. Geotech. J., 43 (2), 224–228.10.1139/t06-001
- Stark T. D., Eid H. T. (1998) Performance of three-dimensional slope stability methods, J. Geotech. Geoenviron. Engng, 124 (11), 1049–1060.10.1061/(ASCE)1090-0241(1998)124:11(1049)
- Thiel K. ed. (1989) Formation of flysch Carpathian slopes by mass movements: The case of the Bystrzyca slope in Szymbark, Prace IBW PAN No. 17, Gdańsk (in Polish).
- Zabuski L. (2008) Investigation of the mechanism of landslide movement on the test slope including the influence of external factors and internal properties of the rock mass, IBW PAN, Gdańsk (internal report), (in Polish).
- Zabuski L. (2013) Assessment of landslide processes based on the results of inclinometric measurements, Przegląd Geologiczny, 61 (4), 248–256 (in Polish).
- Zabuski L., Thiel K., Bober L. (1999) Landslides in the flysch of the Polish Carpathians: Geology, Modelling, Stability Calculations, Wydawnictwo IBW PAN, Gdańsk, 171 p. (in Polish).
- Zabuski L. (2006) Numerical three-dimensional modelling of the landslide process in the Carpathian Flysch, Proc. Int. Conf. “Mass Movement Hazard in Various Environments”, Polish Geological Institute Special Papers 20, 20–21.10.2005, Kraków, 114–118.
- Zabuski L., Wójcik A., Gil E., Mrozek T., Rączkowski W. (2009) Landslide process in a flysch massif – case study of the Kawiory landslide, Beskid Niski Mts. (Carpathians, Poland), Geological Quarterly, 53 (3), PGI, Warsaw, 317–332.
- Zabuski L. (2018) The influence of slope geometry on its stability: Spatial and plane analysis, Archives of Hydro-Engineering and Environmental Mechanics (AHEM), 65 (4), 243–254.10.1515/heem-2018-0015