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[en] APPLICATION OF PROCEDURES FOR THE STABILITY ANALYSIS OF HIGH SLOPES IN MINING / [pt] APLICAÇÃO DE MÉTODOS DE ANÁLISE DE ESTABILIDADE DE TALUDES DE GRANDE ALTURA EM MINERAÇÃOCARLOS ENRIQUE TRISTA AGUILERA 27 October 2017 (has links)
[pt] O presente trabalho apresenta a aplicação das metodologias de análise de estabilidade para taludes rochosos de grande altura comumente aplicados dentro do mundo da mineração. Mostra os principais fatores que influem dentro de uma análise de estabilidade como são a determinação das propriedades geomecânicas do maciço rochoso (rocha intacta e descontinuidades) e a caracterização geológica estrutural da região estudada. Esses parâmetros geralmente são obtidos a partir de ensaios de laboratório e de campo, além da informação que fornecem os mapeamentos geológicos. Outra forma de determinar estas propriedades de resistência é através de retro-análises em regiões onde tenha ocorrido algum tipo de colapso ou pela recopilação de dados que foram utilizados em análises anteriores e possam ser extrapolados. Também é apresentado um passo a passo das distintas etapas de um estudo de estabilidade e a obtenção de dados que finalizam na aplicação de softwares especializados na área de geotécnia e geomecânica, os quais permitirão determinar e pré-visualizar os possíveis problemas de instabilidade dentro dos taludes de um pit mineiro. Serão apresentados dois tipos de análises de estabilidade, o primeiro baseado na teoria do método de equilíbrio limite, o qual procura a possível superfície crítica de deslizamento dentro de um talude e que, condiciona a estabilidade da parede aos valores do fator de segurança. A segundo análise está relacionada com um modelo numérico, o qual aplica o método de elementos distintos ou de blocos, que permite a aplicação de um modelo constitutivo que descreva o comportamento dos materiais e das descontinuidades dentro do maciço rochoso, fornecendo como resultados a pré-visualização de variação de deslocamentos e vetores de velocidade para cada etapa de escavação. / [en] This thesis presents the application of procedures for the stability analysis of high slopes commonly applied in the mining world. It presents the main parameters that influence the stability analysis: determination of the rock mass geomechanical properties (intact rock and discontinuities) and the geological structures characterization of the studied region. These parameters generally are the result of laboratory and field tests, in addition, the information about the geological mapping. Another procedure for determining the properties strength may be through a back analysis of a collapsed zone or extrapolation of a data compilation from previous analyses. Apart from strength parameter determination and concept applying of rock mechanics, this research describes step by step the different stages of a stability analysis and its obtained data, this work then finishes with a geotechnical and geomechanical software application, which will determines and previews slope stability problems for a mining pit. This thesis includes two stability analysis procedures: the first method applies the limit equilibrium theory, which looks for the critical failure surface that depends on depends on a factor of safety. The second one applies a numerical model that uses distinct element method, which through a constitutive model, describes how the materials and discontinuities behave in a rock mass, obtaining as a result, the displacement and velocity vectors for each excavation stage.
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Progressive landslide analysis : Applications of a Finite Difference Method by Dr. Stig Bernander Case Study of the North Spur at Muskrat Falls, Labrador, CanadaDury, Robin January 2017 (has links)
An easy-to-use spreadsheet version of a finite difference method for progressive landslide analysis has been developed. The finite difference method was originally developed by Dr. Stig Bernander, earlier adjunct professor at Luleå University of Technology and head of the Design Department of Skanska AB in Gothenburg, Sweden.. The so called Muskrat Falls Project consists in the ongoing construction of a hydroelectric power plant in Churchill River Valley, Labrador, Canada. The site hosting the project includes a land ridge which is supposed to be used as a natural dam and thus be submitted to important water pressures. Yet, previous landslides in the area have shown that a stability analysis is worth to be carried out in order to ensure the safety of the facility. Until now, investigations have only been carried out using the traditional limit equilibrium method and related elastic-plastic theory. For the sake of simplicity, this approach does not take into account deformations outside and inside the sliding body. However, because of the soil features in Churchill River Valley and particularly its ‘deformation softening’ behavior, there is increasing evidence that the conventional analysis is not relevant in this situation. Further, when analyzing the total stability of the ridge, only a horizontal failure surface has been used and not an inclined one, which is very optimistic and rather unrealistic.. In order to provide a more reliable study, a progressive failure analysis has been performed according to the finite difference method of Dr. Stig Bernander. The development of a spreadsheet adapted to this particular problem has allowed getting quickly and easily numerical results for several cases of study and assumptions. For assumed material properties and geometries of failure, the critical load-carrying capacity is below 1000 kN/m whereas a rise of the water level with 21 m will give an increased load of Nq = 2420 kN/m. This is more than twice of the what the ridge may stand with the assumed properties. The investigation has led to the conclusion that the situation will be risky for many combinations of soil properties if the water level is raised as high as initially planned. The investigation also shows that more material tests are necessary and that stabilization work may be needed to eliminate the risk for a landslide.
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Slope stability analyses in complex Geotechnical conditions – Thurst failure mechanismKarparov, Krassimir Nikolov 09 March 2007 (has links)
In this thesis a previously unknown mechanism of failure in multilayered slope profiles is identified. In some conditions this mechanism does not confirm to the known failure models (relating to circular failure) used in slope stability analysis. For this reason, major failures have occurred in the artificial cuts despite the fact that the limit equilibrium methods suggest that these cuts would be stable. The limit equilibrium methods were originally created to apply to earth dam walls. In the open pit mining environment, where we face inhomogeneous and inclined multilayered structures, the assumptions of these limit equilibrium methods appear to be inapplicable (e.g. assumption for the equal shear strength along the failure surface). Analysis starts with a general picture of the stress state in the highwall slope, given extant geological conditions and rock properties. The study then focuses on a comparison of the crack-tip stress changes in the rockmass with and without inclusions at the microscopic level. Basing some assumptions on binocular microscope observations of grain structures, it is possible to measure the size of the different inclusions and show that the microscopic carbon flakes present in the rock fabric make a major contribution to the failure process in a mudstone layer in the slope. The approach adopts the fracture-process zone ahead of a crack tip as the controlling parameter of flaw propagation in rock. Flaw coalescence, which is poorly accounted for in current fracture models, is attributable to two phenomena: the flaw propagation due to high level of applied stress; and the linking of fracture-process zones due to the small distance between neighbouring flaws. A condition of flaw coalescence is given based on these two mechanisms. This development allows defining of two zones along the failure surface (frictional and cohesive). In the slope-stability field the shear strength of the rock along the failure plane is a composite function of cohesive and frictional strength. For instance, the relaxation stress normal to bedding, induced by overburden removal, provides an investigation method for the determination of the weakest minerals, which may act as flaws for fracture propagation in low-porosity rock. A method has been developed to determine the critical stress for tensile fracture propagation due to the rock structure and the stress reduction normal to bedding. A proposed failure mechanism is based on the polygonal failure surfaces theory developed by Kovari and Fritz (1978), Boyd’s field observations (1983), Stead and Scoble’s (1983) analyses, Riedel (1929) Shear Fracture Model, Tchalenko and Ambraseys (1970), Gammond’s (1983) and Ortlepp (1997) observations for natural shear failures, computer modelling by McKinnon and de la Barra (1998), the results of many laboratory experiments reported by Bartlett et al. (1981) and the author’s experience. The proposed failure mechanism evaluates stability of the artificial slope profile due to the embedded weak layer structure, layer thickness, layer inclination and depth of the cut. On the basis of the observations and the above-mentioned modified fracture model, the slope profile is divided into two blocks; passive and active blocks. With this new model, it is possible to calculate slope safety factors for the slope failure cases studied in the industry. It has been found that, whereas the conventional slope stability models predict stable conditions, the new model suggests that the slope is only marginally stable (i.e. that failure can be expected). / Thesis (PhD(Mining Engineering))--University of Pretoria, 2007. / Mining Engineering / unrestricted
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Numerical analyses of stability of a gradually raised tailings damZardari, Muhammad Auchar January 2013 (has links)
Numerical analyses are presented in this thesis to address potential stability problems that may occur during gradual raisings and under seismic loading conditions of Aitik tailings dam in northern Sweden. The dam is mainly raised using upstream construction method. It is planned to raise the dam gradually in several stages. Two dam parts were studied. The first dam part is a straight dam portion, and the second dam part is a corner. The main concerns associated with future raisings of the straight dam part were: (i) the stability of the dam could be affected by an increase in excess pore pressures during sequential raisings, (ii) how to gradually strengthen the dam by using rockfill berms as supports in such a way that required slope stability can be achieved with a minimum volume of rockfill berms, and (iii) if the dam is subjected to seismic loading, whether or not an increase in excess pore pressures could lead to extensive liquefaction which may cause a failure. The problems related to the dam corner were that tension zones and/or low compression zones could develop because of the horizontal pressure of the stored tailings on the inside of the curvature of the dam corner.Numerical analyses were conducted on both the dam parts using finite element method. Two dimensional (2D) plane strain finite element model was utilized to analyse the straight dam. The dam corner was analysed with both the three dimensional (3D) finite element model, and the 2D axisymmetric finite element model. Coupled deformation and consolidation analyses, and slope stability analyses were performed on both the dam parts to simulate gradual raisings, and to compute safety factors. In addition to this, dynamic analyses were carried out on the straight dam part to evaluate the potential for liquefaction, and seismic stability of the dam. The seismic behaviour of the dam was analysed for two cases: (i) a normal case (earthquake of 3.6 Swedish local magnitude), and (ii) an extreme case (earthquake of 5.8 moment magnitude).The results of the straight dam part, with only previously existing rockfill berms, indicate that stability of the dam was reduced due to an increase in excess pore pressures during raisings. Rockfill berms were utilized as supports to raise the dam with enough safety. An optimization technique was utilized to minimize the volume of rockfill berms. This technique could result in significant saving of cost of rockfill berms.The results of the dam corner show that tension zones and/or low compression zones were located on the surface of the dam corner, mainly above the phreatic level. It is interpreted that there is no risk of internal erosion through the embankments because no seepage path occurs above the phreatic level, and a filter zone exists along the slope of the dam. It is suggested to gradually strengthen the dam corner with rockfill berms. The results of the 2D axisymmetric analyses of the dam corner were in a fairly good agreement with those of the 3D analyses. This implies that the 2D axisymmetric analyses are valid for this dam corner. This is an important finding as 2D axisymmetric analyses require much less computational time compared to 3D analyses.The results of the dynamic analyses performed on the straight dam (including additional rockfill berms) suggest that, for the extreme case, liquefaction could occur in a limited zone that is located below the surface near the embankments. For both the normal and the extreme case, (i) seismically induced displacements seem to be tolerable, and (ii) the post seismic stability of the dam is considered to be sufficient.The findings of this study have been practically applied to the Aitik tailings dam. In general, the modelling procedure and the optimization technique to minimize volume of rockfill berms, presented in this study, could be applied to other tailings dams. / Godkänd; 2013; 20130513 (muhauc); Tillkännagivande disputation 2013-05-20 Nedanstående person kommer att disputera för avläggande av teknologie doktorsexamen. Namn: Muhammad Auchar Zardari Ämne: Geoteknik/Soil Mechanics and Foundation Engineering Avhandling: Numerical Analyses of Stability of a Gradually Raised Tailings Dam Opponent: Professor Daichao Sheng, School of Engineering, The University of Newcastle, New South Wales, Australia Ordförande: Professor Sven Knutsson, Institutionen för samhällsbyggnad och naturresurser, Luleå tekniska universitet Tid: Torsdag den 13 juni 2013, kl 10.00 Plats: F1031, Luleå tekniska universitet
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Numerical Investigation for Slope Stability of Expansive Soils and Large Strain Consolidation of Soft SoilsQi, Shunchao January 2017 (has links)
Several geotechnical processes can only be reliably interpreted by taking account of the soil-atmosphere interactions. This thesis investigates two geotechnical problems involving soil-atmosphere interactions that drive water flow through the soil skeleton in two opposite directions; Problem 1: slope failure in expansive soils induced by water infiltration, Problem 2: large strain consolidation of soft soils induced by water evaporation. Both problems are of practical interest for safe and economical design of various geotechnical infrastructures. Two major geotechnical activities in the world; namely, the construction of water transfer canal in expansive soil area in China and the deposition of oil sands and hard rock tailings in Canada can be cited as classic examples of Problems 1 and 2, respectively. In such problems, substantial zones of the domain may switch between an unsaturated and saturated condition. Therefore, rational analysis requires simultaneous modelling of both unsaturated and saturated soil behaviour.
The first goal of this thesis is to investigate the influence of swelling (the most characteristic behaviour of expansive soils) on slope stability using numerical methods. Swelling of expansive soils contributes to slope instability during rainfall because of two key reasons (i) soil swelling affects the flow process that actually induces swelling, (i.e. a typical coupling phenomenon), and (ii) swelling-induced stress redistribution and displacement development. In this thesis, the first effect is studied by a coupled (mechanical-hydraulic) numerical analysis of the response of a slope to rainfall using commercial software (GeoSlope). The second effect, the swelling-induced stress redistribution and displacement development after wetting, is tracked using a newly developed numerical program. In the program strain softening behaviour is introduced into the elasto-plastic Mohr-Coulomb Model for modelling unsaturated soil. A novel stress (net stress and suction)-dependent model for moduli of elasticity, combined with the predictive model for shear strength based on Soil Water Retention Behaviour are incorporated into the numerical program to achieve a smooth transition between saturated and unsaturated states. The results show that soil swelling can decrease the factor of safety by accelerating the wetting front depth due to hydro-mechanical coupling, while changes of sliding mass geometry has a negligible influence. The change of stress regime associated with soil swelling is significant to induce plastic strain softening (swelling-induced softening) and contribute to the slope failures.
The second goal of thesis is to develop a novel computer program for simulation of large strain consolidation of soft soil under both self-weight and evaporation conditions. This program is both theoretically sound and practically applicable. Several basic/advanced constitutive models for unsaturated soils, including State Surface Model (SSM), Barcelona Basic model (BBM), Glasgow Coupled model (GCM) and bounding surface water retention model, are innovatively implemented into a piece-wise linear framework solved using finite difference technique. The developed program is referred to as UNSATCON-(ML), which has been tested using (a) existing analytical/numerical solutions and (b) various laboratory and field studies for single-layer and multiple-layer deposition of hard rock and oil sands tailings. Features of UNSATCON-(ML) that are improvements over existing models typically used to analyze consolidation-desiccation in soft soils include: (i) coupling of soil large deformation with true unsaturated water flow; (ii) correct reproduction of the shrinkage behaviour of soil under evaporation-induced desiccation; (iii) smooth transition between saturated and unsaturated states despite that some selected models are established using two independent stress variables, (iv) ensuring strictly mass conservation of water, and (v) simulation of irrecoverable volume change and hydraulic hysteresis to properly analyze multilayer tailings deposition. A number of hypothetical field case analyses are carried out using UNSATCON-ML, illustrating its applicability to industry.
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[en] PROBABILISTIC METHODS APPLIED TO SOIL SLOPE STABILITY ANALYSIS / [pt] MÉTODOS PROBABILÍSTICOS APLICADOS NA ANÁLISE DA ESTABILIDADE DE TALUDES EM SOLOCARLOS NACIANCENO MEZA LOPEZ 28 February 2018 (has links)
[pt] Comumente as análises de estabilidade de taludes são realizadas mediante métodos determinísticos, os quais visam o cálculo de um fator de segurança único assumindo os valores dos parâmetros de resistência como representativos e fixos. Estes métodos não conseguem avaliar as incertezas existentes nas propriedades do solo e tampouco indicam a proporção de influência que tem cada parâmetro de resistência no valor do fator de segurança. Os métodos probabilísticos, com base nas teorias de probabilidade, confiabilidade e estatística, permitem estimar a influência dessas incertezas nos cálculos determinísticos, com a possibilidade de prever mais amplamente o risco de insucesso associado a um projeto geotécnico de estabilidade de taludes. O presente trabalho estuda a aplicação de três métodos probabilísticos (Monte Carlo, Hipercubo Latino e Estimativas Pontuais Alternativas) na avaliação de estabilidade de taludes, com auxílio de métodos de equilíbrio limite no cálculo do fator de segurança. Com objetivo de inferir o impacto das variáveis aleatórias nas estimativas de probabilidade e confiabilidade, bem como da importância de uma quantificação adequada dos valores de desvio padrão, são realizadas comparações dos resultados obtidos com métodos probabilísticos e determinísticos (método das fatias, método dos elementos finitos) discutindo as principais vantagens, dificuldades e limitações nas aplicações dos mesmos em problemas de estabilidade de taludes de solo. / [en] Slope stability analyses are usually carried out using deterministic methods, which aim the calculation of a single safety factor assuming the values of the shear strength parameters as representative and fixed. These methods fail to assess the uncertainties in soil properties and do not indicate the proportion of influence that each resistance parameter has on the final value of the safety factor. The probabilistic methods, based on probability, reliability and statistical theories, allow the estimation of the influence of these uncertainties on the deterministic calculations, with the possibility to broadly predict the risk of failure associated with a geotechnical slope stability project. This dissertation studies the application of three probabilistic methods (Monte Carlo, Latin Hypercube, and Alternative Point Estimates) in the evaluation of slope stability, with aid of limit equilibrium methods for the calculation of safety factors. In order to infer the impact of random variables on the estimates of probability and reliability, as well as the importance of an adequate quantification of the standard deviation values, comparisons are made among the results obtained with probabilistic and deterministic methods (limit equilibrium method, finite element method), discussing the main advantages, difficulties and limitations in their application to soil slope stability problems.
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Análises de sensibilidade aplicadas à modelagem de problemas de fluxo em meios porosos e estabilidade de taludes para quantificação de incertezas /Assis, Higor Biondo de January 2019 (has links)
Orientador: Caio Gorla Nogueira / Resumo: Este trabalho apresenta um conjunto de técnicas estatísticas básicas aplicadas à modelagem de problemas de fluxo em meios porosos fraturados e de estabilidade de taludes, com o objetivo de identificar as variáveis explicativas mais influentes sobre a variabilidade das variáveis resposta. Diferentes planejamentos de experimentos foram utilizados para possibilitar a construção de metamodelos polinomiais representativos dos fenômenos estudados. Uma modificação do planejamento do tipo Box-Behnken é apresentada e foi proposta pelo autor para analisar problemas que envolvem elevado número de variáveis explicativas (e.g. 30). Os metamodelos, obtidos via método dos mínimos quadrados, são também chamados de superfícies de resposta ou modelos de regressão e são indispensáveis à verificação da sensibilidade das variáveis explicativas. O conjunto de técnicas mostrou- se muito eficaz na identificação das variáveis explicativas que provocaram efeitos mais significativos sobre a variável resposta. Evidenciou-se também, por meio dos exemplos de estabilidade de taludes tratados, a possibilidade de se quantificar incertezas com o uso de metamodelos suficientemente adequados, uma opção que pode ser bastante útil no processo de quantificação de incertezas de problemas que não possuem soluções analíticas simples. / Abstract: This paper presents a set of basic statistical techniques applied to the modeling of flow problems in fractured porous and slope stability media, aiming to identify the most influential explanatory variables on the response variables variability. Different designs of experiments were used to enable the construction of polynomial metamodels representative of the studied phenomena. A Box-Behnken type design modification is presented and was proposed by the author to analyze problems involving high number of explanatory variables (e.g. 30). The metamodels, obtained by the least squares method, are also called response surfaces or regression models and are indispensable for verifying the sensitivity of the explanatory variables. The set of techniques was very effective in identifying the explanatory variables that had the most significant effects on the response variable. It was also evidenced, through the examples of stability of treated slopes, the possibility of quantifying uncertainties using sufficiently adequate metamodels, an option that can be very useful in the process of quantifying uncertainty of problems that do not have simple analytical solutions. / Mestre
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Estudio comparativo de estabilidad de taludes entre el sistema de drenaje por perforación con anclajes y el sistema de gaviones con banquetas en la Carretera Central, Cerro Pucruchacra, San Mateo / Comparative study of slope stability between the drainage drilling system with anchors and the gabion system with benches in the Carretera Central, Pucruchacra Hill, San MateoRíos Hidalgo, Diego Marcello, Villagaray Flores, Luiggi Jhonny 07 August 2021 (has links)
Debido a los deslizamientos de tierra ocurridos en el cerro Pucruchacra, hecho que afectó a la Carretera Central, la vía más importante del país, el Estado, a través de la empresa Dobac S.A., implementó un sistema de gaviones con banquetas en dicha zona. La presente investigación plantea que un sistema de drenaje por perforación con anclajes puede brindar mayor estabilidad a la ladera del cerro Pucruchacra, que el sistema ya existente. Por ello, para demostrar la hipótesis, se requirió de información geotécnica y topográfica, la cual fue obtenida de estudios hechos previamente. Esta información fue usada en los softwares SEEP/W y SLOPE/W para hacer modelamientos con el fin de determinar la sección crítica -la que tiene menor factor de seguridad- del tramo estudiado. En esta sección crítica se hicieron los modelamientos de los dos sistemas mencionados para luego ser comparados y determinar cuál garantiza una mayor estabilidad al talud. Se modeló el sistema de drenaje por perforación con anclajes con una, dos y tres filas de drenes, para conocer el comportamiento del talud. Los resultados mostraron que no hay mayor diferencia entre el sistema de gaviones con banquetas y el sistema de drenaje por perforación con anclajes, teniendo este último tres filas de drenes. Sin embargo, se evidenció una tendencia positiva en el factor de seguridad al aumentar las filas de drenes, por lo que es probable que el factor de seguridad siga aumentando con más filas. Por otro lado, a pesar de la similitud de los factores de seguridad entre ambos sistemas, se considera que el sistema de drenaje por perforación con anclajes es una mejor alternativa, ya que, por sus características, este no necesita de grandes movimientos de tierra, por lo tanto, la duración y el costo del proyecto serían menores; otra característica a favor es la no necesidad de mantenimiento, ya que estos drenes, por el tipo de material que tiene, no se colmatan. / Due to the landslides that occurred on the Pucruchacra hill, a fact that affected the Carretera Central, the most important road in the country, the State, through the company Dobac S.A., implemented a gabion system with benches in that area. The present investigation proposes that a drainage drilling system with anchors can provide greater stability to the slope of the Pucruchacra hill, than the existing system. Therefore, to demonstrate the hypothesis, geotechnical and topographic information was required, which was obtained from previously done studies. This information was used in the SEEP/W and SLOPE/W software to make modeling in order to determine the critical section -the one with the lowest safety factor- of the studied section. In this critical section, the modeling of both mentioned systems were made to later be compared and determine which one guarantees greater stability to the slope. The drainage drilling system with anchors was modeled with one, two and three rows of drains, to know the behavior of the slope. The drainage results show that there is no major difference between the gabion system with benches and the drainage drilling system with anchors, the latter having three rows of drains. However, a positive trend in the safety factor was evidenced as the rows of drains increased, so it is likely that the safety factor will continue to increase with more rows. On the other hand, despite the similarity of the safety factors between both systems, it is considered that the drainage drilling system with anchors is a better alternative, since, due to its characteristics, it does not need large movements of land, therefore, the duration and cost of the project would be less; another feature in favor is the non-need for maintenance, since these drains, due to the type of material they have, are not clogged. / Tesis
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Návrh sanace sesuvu Nedašova Lhota / The Design of Nedašova Lhota Landslide SecuringJaník, Michal January 2012 (has links)
The thesis called The Design of Nedašova Lhota Landslide Securing concentrates on the basic analysis of the problems connected with landslides and safety factors needed for the slopes stability. At the same time it presents a concrete solution to the given practical task, where the slope stability, the causes leading to the landslide and the subsequent redevelopment in view of financial requirements are discussed.
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Řešení stability svahu v náročných geotechnických podmínkách / The Analysis of Slope Stability in Difficult Geotechnical ConditionsWetterová, Alice January 2012 (has links)
Aim of the diploma thesis is design elements of slope stabilization in accordance with the planned highway D3 in Slovakia section of Cadca, Bukov - Svrčinovec and relocation of a local road. Objective subject is situated on the slopes of Cadca. In diploma thesis is an analysis of the area with the proposed stabilizing elements in the 5 GEO FEM, their assessment, including determining the overall stability of the territory according to the degree of safety.
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