Retroanalise 3D de encosta composta por saprolito em Minas Gerais

Doi: 10.47094/COBRAMSEG2024/241

PALAVRAS CHAVE: retroanálise, análise 3D.

KEYWORDS: retroanalysis, 3D analysis.

ABSTRACT:
This paper presents the three-dimensional probabilistic retroanalysis of a slope failure located in Belo Horizonte/MG, developed using the 3D limit equilibrium methodology in the Slide3 software from Rocscience. The slope, approximately 60m high, is composed essentially of itabirite saprolites with phyllite intercalations, covered by a laterized canga layer. The rupture that occurred in 2010 is approximately 35m high and has a typical concave geometry, ideal for the application of three-dimensional analyses. For this purpose, the shear strength parameters were initially determined from direct shear tests and then calibrated by 3D retroanalysis, whose geomechanical model was developed using Seequent' s Leapfrog software. The development of 3D geomechanical models has become one of the main obstacles to the dissemination of three-dimensional analyses, including pore pressure conditions, hydrogeology, geology, overloads, etc. In the case of back-analysis, since the safety factor is unitary, lower shear strength parameters were found in the 3D analyses, making the 3D back-analysis more conservative. In this work, cohesion values ??were found 20% lower than those compared to 2D back-analysis. Shear strength in friable itabirite or phyllite saprolites is difficult to obtain, generally due to the anisotropic characteristics of the materials, with a very marked foliation typical of the Iron Quadrangle. Sometimes, the collection of undeformed blocks or even molding of specimens for testing is difficult to perform, making this work relevant in obtaining shear strength parameters via back-analysis of large-scale rupture.

Autores

• Lucas Guimarães Carvalho

• Thiago Cruz Bretas