Shashenko, OleksandrShapoval, Volodymyr S.Skobenko, O.Zhylinska, S.Andrieiev, Volodymyr S.Markul, Ruslan V.Mukhina, Nataliya2022-02-272022-02-272021Shashenko O., Shapoval V., Skobenko O., Zhylinska S., Andrieiev V., Markul R., Mukhina N. On the Question of Choosing the Optimal Strength Criterion of Soils and Rocks. Transport Means 2021 : Proceedings of the 25th International Conference (October 06–08, 2021). Kaunas, Lithuania, 2021. Pt. ІІI. P. 1222–1230.http://eadnurt.diit.edu.ua/jspui/handle/123456789/14723V. Andrieiev: ORCID 0000-0002-0862-2790, R. Markul: ORCID 0000-0002-7630-8963ENG: Based on the analysis of solutions to the classical problems of soil mechanics and geomechanics on determining the critical height and angle of the slope, as well as active and passive pressure on the enclosing structures, to identify the optimal strength criteria and the limits of their application, which allow predicting the destruction of ideally free-flowing, ideally plastic rocks, as well as rocks characterized by internal friction and specific cohesion, which is necessary for calculating the strength and stability of underground and open mine workings in the supercritical region - after the destruction of the near-contour region. The areas of application of some criteria for the strength of soils and rocks are outlined and substantiated. It is shown that, in contrast to the known strength criteria of Z.T. Benyavsky, Hoek - Brown and A.N. Shashenko Coulomb - Mohr strength criterion and our proposed modification of the strength criterion of A.N. Shashenko allow predicting the destruction of ideally - free flowing, ideally - plastic rocks, as well as rocks characterized by internal friction and specific cohesion.enMohr - Coulomb strength criteriamodified strength criterion A.N. Shashenkoideally - loose soilideally plastic soilsoilspecific adhesioninternal friction angleКТІКВМArticle