Flooding Analysis And Slope Stability Assessment Due To A Confined Aquifer In The Elbistan-collolar Open Cast Mine

Yoncaci, Selin

01 December 2009

Groundwater can be a critical issue to be considered in civil engineering, mining engineering and interdisciplinary fields. Karstic structures and aquifers enclosing groundwater are potential risks in case they are not studied in detail. Enclosed groundwater can result in floods at pit bottom or can cause instabilities of permanent pit slopes. This study is about analyses of flooding possibility at the pit bottom and possible instabilities of pit slopes in the Elbistan-&Ccedil / &ouml / llolar open cast coal mine due to the presence of a karstic aquifer under the lignite formation. Thickness and permeability of the bottom clay formation under the lignite bed are necessary critical parameters for investigating a possible water rush from a confined aquifer in limestone formation underneath the bottom clay. These parameters were changed, and water flow quantities towards the pit bottom were determined by finite element models. Critical values of these parameters were investigated considering the lack of accurate site investigation information regarding the thickness and permeability of bottom clay. Possible strength loss, fracturing, and thus permeability increase in bottom clay due to a confined aquifer were studied. In flooding and slope stability analyses Phase2 software based on finite element method is used. Results of analyses showed that as reported thickness of bottom clay is around 120 m at the pit bottom and permeability values are in orders of magnitudes of 10-8 m/s, no serious flooding problems are expected to occur unless the thickness of bottom clay layer drops down to around 20 m, and the permeability of this layer reaches an order of magnitude of 10-5 m/s. Mechanical effects of confined aquifer on slopes and bottom clay displacements were investigated, and thus fracturing and failure possibilities of bottom clay and permanent slope were assessed. Slope and pit bottom displacements increased to meter levels for less than 60 m bottom clay thicknesses. Whereas 50-60 m bottom clay thickness can be critical for cracking, 20 m bottom clay thickness was found to be critical for water rush to the pit bottom. With reported bottom clay thickness of 120 m and with 25o slope angle permanent slope factor of safety was found to be 1.2, and this value was not effected unless clay layer thickness drops below 70 m levels. Higher than 32o overall slope angle there will be a risk of slope failure for permanent and production slopes, reflected by safety factors less than one, in the stability analyses.

TN Mining Engineering, Metallurgy. 1-997

Elbistan-&Ccedil

&ouml

An Investigation Of Geotechnical Characteristics And Stability Of A Tailings Dam

Sayit, Emir

01 June 2012

The objective of this study is to investigate the stability problems in tailing (i.e. mine waste) dams. A tailing dam is an embankment dam (made of natural borrow or tailing material) constructed to retain slurry-like mining wastes that are produced as a result of operation of mines. In the last 30 years, the stability of tailing dams has drawn much attention as a significant number of tailing dam failures have been recorded worldwide. These instability problems caused significant loss of life and damage to property in addition to environmental hazards. In this study causes of failure of tailing dams and their stability problems are investigated with respect to their geometric and material characteristics. Seepage and stability of tailing dams are studied through limit equilibrium method and finite element method. The effects of uncertainties in material properties on the stability of tailings dams is investigated. Within this context, Kastamonu-Kure copper tailings dam is used as a case study and material properties are determined by laboratory tests.

Evolution of depositional and slope instability processes on Bryant Canyon area, Northwest Gulf of Mexico

Tripsanas, Efthymios

17 February 2005

Bryant and Eastern Canyon systems are located on the northwest Gulf of Mexico, and they are characterized by a very complex sedimentological history related to glacioeustatic cycles, river discharges, and interactions of depositional and halokinetic processes. Both canyon systems were active during the low sea-level stand of Oxygen Isotope Stage 6, and provided the pathways for the transport of enormous amounts of sediments on the continental slope and abyssal plain of the northwest Gulf of Mexico. Right after their abandonment, at the beginning of Stage 5, salt diapirs encroached into the canyons, and resulted in their transformation into a network of intraslope basins. The transformation of the canyons resulted in the generation of massive sediment failures. The mid-shelf (Stages 4 and 3) to shelf edge (Stage 2) lowering of the sea-level during the last glacial episode resulted in: 1) extensive river-sourced deposits on the outer shelf and/or upper continental slope that contributed in a seaward mobilization of the underlying salt masses, and 2) the generation of numerous gravity flows and turbidity currents on the outer shelf/upper continental slope. The seaward mobilization of the salt masses resulted in the oversteepening of the flanks of the basins, and consequently in the generation of numerous and massive sediment failures. The turbidity currents were confined on the intraslope basins of the upper continental slope, depositing their coarsest material. However, their most diluted upper and end members were able to continue their downslope propagation depositing characteristic fine-grained turbidites. The frequency of the turbidity currents was highly increased during the last glacial maximum (Stage 2), and three short melt-water pulses centered at 30.5, 36, and 52 ky B.P. The last deglaciation event is characterized by the development of a major melt water event that resulted in the deposition of distinct organic rich sediments, similar to the sapropels of the Eastern Mediterranean. At about 11 ky B.P. the melt water discharges of the North America switched from Mississippi River to St Lawrence Seaway, causing the domination of hemipelagic sedimentation on the continental slope of the northwest Gulf of Mexico.

Sedimentological history

turbidity currents

sediment failures

debris flows

uniform mud deposits

unifites

low-density turbidity currents

slope stability

Concepts Used to Analyze and Determine Rock Slope Stability for Mining & Civil Engineering Applications

Ureel, Scott Daniel

January 2014

Slope stability plays an important role in rock engineering. During the design, construction and post design phases of rock slope stability, engineers and geologists need to pay close attention to the rock conditions within the rock slope to prevent slope failures, protect employees and maintain economic profit. This dissertation is based on a general four step procedure to construct and maintain rock slope stability with confidence. These four steps include field investigations, material testing and rock strength database, slope modelling and slope monitoring. The author provides past, present and alternatives methods for each step for the introduced slope stability procedure. Specific topics within each step are investigated displaying results, recommendations and conclusions. Step one involves data collection during field investigations for rock slope design. Orientation of rock core during drilling programs has become extremely pertinent and important for slope stability and underground mining operations. Orientation is needed to provide essential data to describe the structure and properties of discontinuities encountered during the design process to understand favourable and unfavourable conditions within a rock slope and underground openings. This chapter examines and discusses the limitations and benefits of four methods of obtaining borehole discontinuity orientations from drilling programs including clay-imprint, ACT I, II, III Reflex, EZY-MARK, and OBI/ABI Televiewer systems. Results, recommendations and conclusions are provided in this study. During step two to maintain rock slope stability, a rock strength database was created and used to correlate and compare RQD values to rock abrasion, shear strength and other rock characterization methods. Rock abrasion plays a significant role in geotechnical design, tunneling operations and the safety of foundations from scour; however, rock abrasion can be used to develop higher confidence in important parameters such as RQD and hardness. More rock abrasivity research is needed to provide a more accurate and compatible method for all subsurface material properties used in mining and civil engineering projects. This report will provide simple correlations relating abrasion resistance to RQD, UCS, Geological Strength Index (GSI) and Rock Mass Rating (RMR) of metamorphic rock. Results, discussions and conclusions are provided. Step 3 to determine rock slope stability entails utilizing computer modeling to predict failure conditions and wear rock mass properties. Computer modeling and slope monitoring for rock slopes have become essential to assess factor of safety (FOS) values to predict slope instability and estimate potential failure. When utilizing computer models, the limit equilibrium method (LEM) provides FOS values according to force and moment equilibrium; the shear strength reduction (SSR) technique calculates FOS using stress- and deformation-based analyses. Currently, both methods are prevalent in the engineering industry and applied by geotechnical engineers to analyze and determine stability in rock slopes for mining and civil engineering projects. Slope modeling techniques are then used to observe slope conditions and predict when slope failure may occur (FOS = 1.0). Comparison, results and conclusions are presented. Lastly, the dissertation (step 4: slope monitoring) will investigate past studies of FOS comparisons, review calculation methods and provide procedures and results using remote sensing data. The main objective of the dissertation is to provide engineers with essential information needed to ensure high confidence in factor of safety predictions and how alternative methods can be utilized. Recommendations, future research and conclusions regarding FOS and slope monitoring are provided within the dissertation.

Rock Mass

Rock Orientation

Slope Modeling

Slope Monitoring

Slope Stability

Rock Abrasion

Rock Slope Stability Investigations In Three Dimensions For A Part Of An Open Pit Mine In USA

Shu, Biao

January 2014

Traditional slope stability analysis and design methods, such as limit equilibrium method and continuum numerical methods have limitations in investigating three dimensional large scale rock slope stability problems in open pit mines associated with stress concentrations and deformations arising due to intersection of many complex major discontinuity structures and irregular topographies. Analytical methods are limited to investigating kinematics and limit equilibrium conditions based on rigid body analyses. Continuum numerical methods fail to simulate the detachment of rock blocks and large displacements and rotations. Therefore, there is an urgent need to try some new methods to have a deeper understanding of the open pit mine rock slope stability problems. The intact rock properties and discontinuity properties for both DRC and DP rock formations that exist in the selected open pit mine were determined from tests conducted on rock samples collected from the mine site. Special survey equipment (Professor Kulatilake owns) which has a total station, laser scanner and a camera was used to perform remote fracture mapping in the research area selected at the mine site. From remote fracture mapping data, the fracture orientation, spacing and density were calculated in a much refined way in this dissertation compared to what exist in the literature. Discontinuity orientation distributions obtained through remote fracture mapping agreed very well with the results of manual fracture mapping conducted by the mining company. This is an important achievement in this dissertation compared to what exist in the literature. GSI rock quality system and Hoek-Brown failure criteria were used to estimate the rock mass properties combining the fracture mapping results with laboratory test results of intact rock samples. Fault properties and the DRC-DP contact properties were estimated based on the laboratory discontinuity test results. A geological model was built in a 3DEC model including all the major faults, DRC-DP contact, and two stages of rock excavation. The built major discontinuity system of 44 faults in 3DEC with their real orientations, locations and three dimensional extensions were validated successfully using the fault geometry data provided by the mining company using seven cross sections. This was a major accomplishment in this dissertation because it was done for the first time in the world. Numerical modeling was conducted to study the effect of boundary conditions, fault system and lateral stress ratio on the stability of the considered rock slope. For the considered section of the rock slope, the displacements obtained through stress boundary conditions were seemed more realistic than that obtained through zero velocity boundary conditions (on all four lateral faces). The fault system was found to play an important role with respect to rock slope stability. Stable deformation distributions were obtained for k₀ in the range of 0.4 to 0.7. Because the studied rock mass is quite stable, it seems that an appropriate range for k₀ for this rock mass is between 0.4 and 0.7. Seven monitoring points were selected from the deformation monitoring conducted at the open pit mine site by the mining company using a robotic total station to compare with numerical predictions. The displacements occurred between July 2011 and July 2012 due to the nearby rock mass excavation that took place during the same period were compared between the field monitoring results and the predicted numerical modeling results; a good agreement was obtained. This is a huge success in this dissertation because such a comparison was done for the first time in the world. In overall, the successful simulation of the rock excavation during a certain time period indicated the possibility of using the procedure developed in this dissertation to investigate rock slope stability with respect to expected future rock excavations in mine planning.

Laser Scanner

Numerical Modeling

Open Pit Mine

Rock Slope Stability

Field Displacement Monitoring

Investigating the stability of geosynthetic landfill capping systems

Orebowale, Patience B.

January 2006

The use of geosynthetics in landfill construction introduces potential planes of weakness. As a result, there is a requirement to assess the stability along the soil/geosynthetic and geosynthetic/geosynthetic interfaces. Stability is governed by the shear strength along the weakest interface in the system. Repeatability interface shear strength testing of a geomembrane/geotextile interface at low normal stresses suitable for capping systems showed considerable variability of measured geosynthetic interface shear strengths, suggesting that minor factors can have a significant influence on the measured shear strength. This study demonstrates that more than one test per normal stress is necessary if a more accurate and reliable interface shear strength value is to be obtained. Carefully controlled inter-laboratory geosynthetic interface shear strength comparison tests undertaken on large direct shear devices that differ in the kinematic degrees of freedom of the top box, showed the fixed top box design to consistently over estimate the available interface shear strength compared to the vertically movable top box design. Results obtained from measurement of the normal stress on the interface during shear with use of load cells in the lower box of the fixed top box design, raise key questions on the accuracy, reliability and proper interpretation of the interface shear strength data used in landfill design calculations. Tests on the geocomposite/sand interface have shown the interface friction angle to vary with the orientation of the geocomposite's main core, in relation to the direction of shearing. Close attention needs to be paid to the onsite geocomposite placement in confined spaces and capping slope corners, as grid orientation on the slope becomes particularly important when sliding is initiated. Attempts to measure the pore water pressure during staged consolidation and shear along a clay/geomembrane interface in the large direct shear device suggest that this interface is a partial drainage path.

628.44564

Jämförelse av metod vid stabilitetsanalys i bergslänter / Comparison of Methods for Slope Stability Analysis

Ekberg Bergman, Emelie

January 2018

En bergslänts stabilitet styrs av berggrundens egenskaper, så som sprickegenskaper och bergkvalité. För att uppnå önskad stabilitet i en bergslänt behöver de bergmekaniska parametrarna kartläggas och analyseras för att fastställa risker och stabilitetsåtgärder. Syftet med studien är att utvärdera kvalitén på bergteknisk data från digitalfotogrammetriska 3D-modeller genom att jämföra resultatet med manuella mätningar från konventionell kartläggning. Målet är även att utforska potentialen för användning av fotogrammetrisk 3D-modellering vid stabilitetsanalyser i bergslänter genom att utvärdera den bergtekniska analys som kan göras utifrån fotogrammetrisk data. Sprickmätningar framtagna från 3D-modellen visade sig ha samma kvalité som manuella mätningar tagna enligt konventionell metod. Den UAS-baserade fotogrammetrin kan dock inte ersätta den konventionella analysen helt vid stabilitetsanalyser men kan användas som ett kompletterande verktyg i bergtekniska undersökningar. Fotogrammetrin möjliggör datainsamling från ett säkrare avstånd vilket minskar riskmomenten som den konventionella metoden medför vid arbete i fält. Den digitala metoden visade sig även ha fler fördelar såsom möjligheten av kartläggning och analysering framför datorn för mindre tids- och kostnadskrävande moment, digital datalagring samt att slänter med begränsad åtkomst kan karteras. / The stability of a rock slope is controlled by the rock’s mechanical properties, such as rock quality and facets. To achieve the desired stability in a rock slope, the mechanical parameters need to be mapped and analysed to determine possible failures and decide necessary stability measures. The purpose of this study is to evaluate the quality of rock technical data from digital photogrammetry 3D models by comparing the result with manual measurements from conventional mapping. The goal is also to explore the potential uses of photogrammetric 3D models for rock slope stability analyses by evaluate the photogrammetric data. Facets extracted from 3D models were found to have the same quality as manual measurements. However, the UAS-based method cannot completely replace the conventional method but can be useful as a complementary tool. Photogrammetry enables the collection of data from a safer distance, which reduces workplace hazards that the conventional method entails. The digital method also proved to have more advantages, such as the possibility of digital mapping and analysing which is less costly and time-consuming, digital data storage and the possibility to access outcrops that can’t be mapped with manually measurements due to inaccessibility.

Slope stability analysis

UAS Photogrammetry

3D modelling

rock mechanical properties

Släntstabilitetsanalys

drönarfotogrammetri

3D-modellering

bergmekaniska parametrar

Geology

Geologi

[en] DEVELOPMENT OF A TRANSIENT MATHEMATICAL MODEL FOR THE PREDICTION OF PLANAR LANDSLIDES IN NATURAL SLOPES / [pt] DESENVOLVIMENTO DE UM MODELO MATEMÁTICO TRANSIENTE PARA PREVISÃO DE ESCORREGAMENTOS PLANARES EM ENCOSTAS

ALEXANDRE CONTI

04 September 2018

[pt] Esse trabalho tem como objetivo desenvolver um modelo determinístico transiente de previsão de escorregamentos planares em encostas, para escalas em nível de bacia hidrográfica (1:2000 a 1:5000). No modelo são aplicadas as teorias de Green-Ampt (1934) e de O Loughlin (1986), essa última utilizada no programa SHALSTAB (MONTGOMERY e DIETRICH, 1994), além da teoria talude infinito 2D e 3D. Também são considerados nas análises a não saturação do solo e os efeitos da vegetação. O evento estudado para aplicação e teste do modelo refere-se ao ocorrido em 1996, nas bacias do Quitite e Papagaio em Jacarepaguá, Zona Oeste do Rio de Janeiro. Além do mapeamento do fator de segurança nas bacias, também são gerados mapas com o escoamento superficial acumulado, e tenta-se correlacionar ambos com as cicatrizes que ocorreram no caso de estudo. / [en] The aim of this work is to develop a physically-based transient model for the prediction of planar landslides in natural slopes. The application scale of the model is for a hydrographic basin (1:2000 to 1:5000). The theories of Green-Ampt (1934) and O Loughlin (1986), the second one used in the SHALSTAB program (MONTGOMERY e DIETRICH, 1994), and the infinite slope 2D and 3D are used in the model. The effect of the unsaturation and the vegetation is also considered in the analysis. The case study for the test of the model is the 1996 event that took place in the Quitite and Papagaio basins, in Jacarepaguá, Zona Oeste of Rio de Janeiro. Besides mapping the safety factor in the basins, maps of the accumulated runoff were also generated. This work also tries to correlate the runoff as another factor that caused the landslides.

[pt] ESTABILIDADE DE ENCOSTAS

[en] SLOPE STABILITY

[pt] MAPEAMENTO DE RISCO GEOTECNICO

[en] GEOTECHNICAL HAZARD MAPPING

[pt] MODELO GEOTECNICO DETERMINISTICO

[en] PHYSICALLY-BASED GEOTECHNICAL MODEL

Estudo dos solos de uma encosta instável em São José - SC : intemperismo e comportamento geotécnico / Study of soils of an unstable slope in São José – SC : weathering and geotechnical behavior

Heidemann, Marcelo

January 2015

Uma encosta localizada no município de São José - SC apresenta extenso histórico de instabilidades. Do ponto de vista litológico há predominância de granitoides na área de estudos e a mesma é transpassada por uma falha preenchida por riolito bastante alterado devido à atividade hidrotermal. O intemperismo da rocha granítica deu origem a um perfil de alteração com espessura bastante variável e a solos com características geotécnicas, químicas e mineralógicas distintas, levando à discretização de cinco solos. Quatro solos residuais foram denominados solos residuais de granito amarelo (GrAm), vermelho (GrVm), com biotita (GrBt) e lateritizado (GrLt), e uma argila de preenchimento de descontinuidades (ArBr). Foi realizada uma série de análises químicas, empregadas na quantificação de índices de intemperismo. O avanço do processo de intemperismo tornou os solos residuais mais finos e plásticos e nas áreas em que a alteração hidrotermal foi mais intensa houve a transformação de feldspatos em biotitas. As curvas de retenção solo-água obtidas para os solos saprolíticos são unimodais, mas no caso do solo GrLt os dados experimentais ajustam-se a curvas bimodais. O processo de remoldagem dos solos impacta nos níveis de sucção desenvolvidos. Os ensaios de condutividade hidráulica mostraram que esta propriedade não depende unicamente da porosidade e nível de confinamento, sendo relevante a influência da estrutura e mineralogia. Os solos saprolíticos tem comportamento distinto do apresentado pelo solo GrLt, no qual ocorre brusca redução de ksat com aumento do confinamento. Ensaios de compressão confinada em amostras indeformadas, remoldadas e reconstituídas possibilitaram identificar a manifestação da estrutura e sua influência na deformabilidade dos solos. Constatou-se que esta suplanta a influência da porosidade. Não é possível definir uma única linha de compressão normal que descreva o comportamento de cada material independentemente da forma com que foram preparados os corpos de prova. Nos ensaios triaxiais a estrutura dos materiais atua de forma distinta daquela observada nos ensaios oedométricos, indicando que sua influência depende da trajetória de tensões. A mineralogia parece ter influência na resistência ao cisalhamento destes solos. O solo GrBt apresentou o mais baixo ângulo de atrito, da ordem de 26º. O solo GrVm tem ângulo de atrito de 32º, sendo o maior aqui obtido. Quando remoldados os solos respeitam linhas de estado crítico (CSL) bastante bem definidas, por conta da redução da influência da estrutura nos resultados. Quando indeformados também é possível o ajuste de CSL, mas a dispersão dos dados é maior. O comportamento dos solos não é normalizável, mesmo quando remoldado. Em ensaios ring shear foram medidos ângulos de atrito residual entre 22º (GrAm) e 13,8º (GrLt) nos solos residuais. No solo ArBr o baixo ângulo de atrito residual (8º) se deve à granulometria fina e composição rica em argilominerais e micas. Sua associação ao solo GrBt corrobora a concentração das rupturas de encosta na área de ocorrência destes materiais. As curvas tensão-deformação dos ensaios triaxiais puderam ser satisfatoriamente reproduzidas pelo modelo hardening, o qual foi empregado para representar o comportamento dos solos em análises de estabilidade por meio de elementos finitos. Tais análises foram confirmadas por análises por equilíbrio limite no que tange a definição de áreas mais suscetíveis a rupturas. / A hillside in the municipality of São José - SC has an extensive history of instabilities. Under a lithological point of view, there is a predominance of granitoids in the study area, which is crossed by a fault filled by an altered rhyolite, due to hydrothermal activity. The weathering of the granite rock gave rise to a soil profile with highly variable thickness and soils with distinct geotechnical, chemical and mineralogical properties, leading to the discretization of five soils. They were denominated as four granite residual soils, yellow (GrAm), red (GrVm), with biotite (GrBt) and lateritizated (GrLt), and a clay soil that filled discontinuities (ArBr). A series of chemical analysis was carried out and employed to quantify some weathering indexes. As the weathering processes increased the residual soils became finer and more plastic. In areas where hydrothermal alteration was more intense feldspar was transformed in biotite. Soil suction characteristic curves obtained for the saprolitic soils were unimodal, but in the case of GrLt soil bimodal curves fitted better to experimental data. Remolding of the soils impacted the suction levels developed. Hydraulic conductivity tests have shown that this property does not depend solely on the porosity and confining pressures but the influence of soil structure and mineralogy is relevant. The saprolitic soils show a different behavior as compared to GrLt, which suffers abrupt reduction of ksat when the confinement is increased. Oedometric tests on undisturbed, remolded and reconstituted specimens allowed the identification of the influence of structure on the soil deformability. It was found that this influence is larger than that of porosity. It was not possible to define a unique normal compression line to describe the behavior of each material, regardless of the specimens preparation. In triaxial tests, soil structure acts in a different way from the observed in oedometric tests, indicating that their influence depends on the stress path. The mineralogy appears to have influence on the shear strength of these soils. The soil GrBt has the lowest friction angle, around 26°, and soil GrVm has a friction angle of 32° the largest obtained. When remolded these soils obey critical state lines which are well defined due to the reduction of soil structure influence. Although was possible to define CSL for the undisturbed soil the data dispersion was bigger. These soils do not have normalizable behavior even when remolded. Residual friction angles of residual soils measured through ring shear tests ranged between 22° (GrAm) and 13,8º (GrLt). The soil ArBr showed a very low residual friction angle (8°) due to its fine grain size and its mineralogical composition rich in clay minerals and mica. The association of ArBr soil to the GrBt soil supports the concentration of slope failures in the area of occurrence of these materials. Stress-strain curves of triaxial tests were satisfactorily reproduced by the hardening model, which was employed to represent the soils behavior in stability analyzes using finite element method. Such results were validated by limit equilibrium analysis that were employed to define the areas more susceptible to failures.

Solo residual

Condutividade hidráulica

Ensaios triaxiais

Encostas

Estabilidade

Comportamento geotécnico

Residual soils

Weathering

Alteration

Geotechnical behavior

Slope stability

Estudo dos solos de uma encosta instável em São José - SC : intemperismo e comportamento geotécnico / Study of soils of an unstable slope in São José – SC : weathering and geotechnical behavior

Heidemann, Marcelo

January 2015

Uma encosta localizada no município de São José - SC apresenta extenso histórico de instabilidades. Do ponto de vista litológico há predominância de granitoides na área de estudos e a mesma é transpassada por uma falha preenchida por riolito bastante alterado devido à atividade hidrotermal. O intemperismo da rocha granítica deu origem a um perfil de alteração com espessura bastante variável e a solos com características geotécnicas, químicas e mineralógicas distintas, levando à discretização de cinco solos. Quatro solos residuais foram denominados solos residuais de granito amarelo (GrAm), vermelho (GrVm), com biotita (GrBt) e lateritizado (GrLt), e uma argila de preenchimento de descontinuidades (ArBr). Foi realizada uma série de análises químicas, empregadas na quantificação de índices de intemperismo. O avanço do processo de intemperismo tornou os solos residuais mais finos e plásticos e nas áreas em que a alteração hidrotermal foi mais intensa houve a transformação de feldspatos em biotitas. As curvas de retenção solo-água obtidas para os solos saprolíticos são unimodais, mas no caso do solo GrLt os dados experimentais ajustam-se a curvas bimodais. O processo de remoldagem dos solos impacta nos níveis de sucção desenvolvidos. Os ensaios de condutividade hidráulica mostraram que esta propriedade não depende unicamente da porosidade e nível de confinamento, sendo relevante a influência da estrutura e mineralogia. Os solos saprolíticos tem comportamento distinto do apresentado pelo solo GrLt, no qual ocorre brusca redução de ksat com aumento do confinamento. Ensaios de compressão confinada em amostras indeformadas, remoldadas e reconstituídas possibilitaram identificar a manifestação da estrutura e sua influência na deformabilidade dos solos. Constatou-se que esta suplanta a influência da porosidade. Não é possível definir uma única linha de compressão normal que descreva o comportamento de cada material independentemente da forma com que foram preparados os corpos de prova. Nos ensaios triaxiais a estrutura dos materiais atua de forma distinta daquela observada nos ensaios oedométricos, indicando que sua influência depende da trajetória de tensões. A mineralogia parece ter influência na resistência ao cisalhamento destes solos. O solo GrBt apresentou o mais baixo ângulo de atrito, da ordem de 26º. O solo GrVm tem ângulo de atrito de 32º, sendo o maior aqui obtido. Quando remoldados os solos respeitam linhas de estado crítico (CSL) bastante bem definidas, por conta da redução da influência da estrutura nos resultados. Quando indeformados também é possível o ajuste de CSL, mas a dispersão dos dados é maior. O comportamento dos solos não é normalizável, mesmo quando remoldado. Em ensaios ring shear foram medidos ângulos de atrito residual entre 22º (GrAm) e 13,8º (GrLt) nos solos residuais. No solo ArBr o baixo ângulo de atrito residual (8º) se deve à granulometria fina e composição rica em argilominerais e micas. Sua associação ao solo GrBt corrobora a concentração das rupturas de encosta na área de ocorrência destes materiais. As curvas tensão-deformação dos ensaios triaxiais puderam ser satisfatoriamente reproduzidas pelo modelo hardening, o qual foi empregado para representar o comportamento dos solos em análises de estabilidade por meio de elementos finitos. Tais análises foram confirmadas por análises por equilíbrio limite no que tange a definição de áreas mais suscetíveis a rupturas. / A hillside in the municipality of São José - SC has an extensive history of instabilities. Under a lithological point of view, there is a predominance of granitoids in the study area, which is crossed by a fault filled by an altered rhyolite, due to hydrothermal activity. The weathering of the granite rock gave rise to a soil profile with highly variable thickness and soils with distinct geotechnical, chemical and mineralogical properties, leading to the discretization of five soils. They were denominated as four granite residual soils, yellow (GrAm), red (GrVm), with biotite (GrBt) and lateritizated (GrLt), and a clay soil that filled discontinuities (ArBr). A series of chemical analysis was carried out and employed to quantify some weathering indexes. As the weathering processes increased the residual soils became finer and more plastic. In areas where hydrothermal alteration was more intense feldspar was transformed in biotite. Soil suction characteristic curves obtained for the saprolitic soils were unimodal, but in the case of GrLt soil bimodal curves fitted better to experimental data. Remolding of the soils impacted the suction levels developed. Hydraulic conductivity tests have shown that this property does not depend solely on the porosity and confining pressures but the influence of soil structure and mineralogy is relevant. The saprolitic soils show a different behavior as compared to GrLt, which suffers abrupt reduction of ksat when the confinement is increased. Oedometric tests on undisturbed, remolded and reconstituted specimens allowed the identification of the influence of structure on the soil deformability. It was found that this influence is larger than that of porosity. It was not possible to define a unique normal compression line to describe the behavior of each material, regardless of the specimens preparation. In triaxial tests, soil structure acts in a different way from the observed in oedometric tests, indicating that their influence depends on the stress path. The mineralogy appears to have influence on the shear strength of these soils. The soil GrBt has the lowest friction angle, around 26°, and soil GrVm has a friction angle of 32° the largest obtained. When remolded these soils obey critical state lines which are well defined due to the reduction of soil structure influence. Although was possible to define CSL for the undisturbed soil the data dispersion was bigger. These soils do not have normalizable behavior even when remolded. Residual friction angles of residual soils measured through ring shear tests ranged between 22° (GrAm) and 13,8º (GrLt). The soil ArBr showed a very low residual friction angle (8°) due to its fine grain size and its mineralogical composition rich in clay minerals and mica. The association of ArBr soil to the GrBt soil supports the concentration of slope failures in the area of occurrence of these materials. Stress-strain curves of triaxial tests were satisfactorily reproduced by the hardening model, which was employed to represent the soils behavior in stability analyzes using finite element method. Such results were validated by limit equilibrium analysis that were employed to define the areas more susceptible to failures.

Solo residual

Condutividade hidráulica

Ensaios triaxiais

Encostas

Estabilidade

Comportamento geotécnico

Residual soils

Weathering

Alteration

Geotechnical behavior

Slope stability