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Deep soil mixing as a slope stabilization technique in Northland Allochthon residual clay soilTatarniuk, Catherine January 2014 (has links)
Road slips are common in Northland Allochthon residual clay soil, and are commonly mitigated using deep soil mixing (DSM). A deficiency in laboratory investigations on Northland Allochthon residual clay and a need for a better understanding of the numerical modelling of DSM columns used to mitigate unstable slopes in this soil type is evident in literature, and has been highlighted by practitioners. This research has aimed to fill aspects of these deficiencies.
Field testing and classification tests have provided insight into how the soil varies between sites and with depth, and how in situ testing methods compare to one another. Field testing has also demonstrated that soil property changes around DSM columns have been shown to exist through seismic flat plate dilatometer testing before and after column installation, which has not previously been proven using an in situ method. This is important for practitioners who use DSM to demonstrate the additional soil improvements provided by the columns.
The testing of reconstituted soil is fundamental in examining soil behaviour, and this study is the first to examine the triaxial behaviour of reconstituted specimens of Northland Allochthon soil. Laboratory triaxial testing and oedometer testing have allowed for a normalized comparison of the intact strength of Northland Allochthon residual clay soil to its reconstituted state. This work provides an answer to the important question regarding the role of soil structure in this soil type. It was revealed that soil structure results in increased shear strength of the soil, and that this increase is primarily cohesive in nature. The near coincidence of the post-rupture strength of intact specimens with the critical state angle of internal shearing resistance provides support for its use in examining first time slope failures in this soil type. This is an important finding for practitioners, as it demonstrates the value of testing reconstituted specimens, which are much easier to obtain than high quality intact specimens. In addition, relationships between the plasticity index (PI) of the soil and certain soil parameters (and soil behaviour) have been demonstrated to be relevant and useful for this soil type.
Soil properties acquired in this study were tabulated along with those from other field sites in Northland Allochthon soil. It was found that there is significant variation between field sites, likely due to varying degrees of weathering, which is an important consideration for practitioners dealing with this soil type.
A brief examination of constitutive models for representation of Northland Allochthon residual clay soil have shown that several different models can sufficiently represent the behaviour of this soil. The Mohr-Coulomb model was selected for use in subsequent finite element numerical models. A case study of a road slip at a field site in Northland Allochthon residual clay soil, mitigated using DSM columns, revealed that the use of a pre-existing slip surface after first time failure leads to an improved match between observed field behaviour and the behaviour of the slope as exhibited in a numerical model. This type of failure mechanism has not been previously examined in this soil type, and this case study demonstrates it is a useful approach that should be considered when dealing with second time failure in Northland Allochthon slopes. This numerical model also introduces the replacement ratio method (RRM), a technique used to represent the three dimensional (3D) geometry of the DSM columns in the more commonly used two dimensional (2D) analysis.
Examination of laterally loaded DSM columns in plan view, which has not previously been performed in the context of DSM columns, has illustrated how installation effects and column shape influence load displacement curves, and demonstrates the effects of soil arching. This analysis provides practitioners with evidence that improved soil property changes, found to occur around DSM columns, lead to improved DSM column performance. A simplified 3D numerical model of laterally loaded DSM columns, which builds on the ideas developed in the previous two 2D models, has been compared to an identical 2D model. It is shown that the commonly used RRM results in an overestimation of the resisting force provided by the columns as compared to the 3D model. However, this does not necessarily imply that the use of the RRM in an analysis will always result in a safe slope. The degree to which its use will affect the results will depend on the slope geometry, location of the DSM columns, and the type of analysis performed (i.e. factor of safety or deformation based). A modification to the RRM has been proposed. It is recommended that when the DSM column diameter and soil properties are similar to those used in this study, the MRRM developed in this study should be utilized. In circumstances where they differ, it is recommended that practitioners perform a sensitivity analysis using the MRRM developed here as a basis for modifying the RRM in order to determine the extent to which their results are influenced. If the influence is significant, the use of a 3D model should be considered.
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Comportamento mecânico de resíduo de mineração estabilizado com cimentoTomasi, Lennon Ferreira January 2018 (has links)
Resíduos de mineração, dispostos em barragens de rejeito, são materiais de baixas densidades e resistências, em geral – muitas vezes, suscetíveis à liquefação. Desta forma, técnicas de melhoramento de solos, tais como o Deep Soil Mixing, surgem como possibilidade à estabilização destes materiais. Neste sentido, baseado nesta técnica, este trabalho visa avaliar o comportamento mecânico de resíduos de mineração de ouro estabilizados com cimento, comparativamente aos rejeitos no estado natural, analisando fatores de influência (quantidade de agente cimentante, umidade inicial das amostras e líquido empregado na moldagem). Para este propósito, ensaios de resistência à compressão simples, de compressão diametral, de ondas ultrassônicas e triaxiais não-drenados (CIU) foram empregados. Os resultados mostram que os resíduos de mineração, nas condições representativas de campo, apresentam baixas resistências e suscetibilidade à liquefação a baixas tensões confinantes. Por sua vez, os ensaios com resíduo estabilizado com cimento revelaram que: o aumento nas taxas de cimentação, a diminuição dos teores de umidade iniciais das amostras e uso de licor proveniente das barragens de rejeito nas moldagens, repercutiram, em geral, em aumentos nas resistências (qu e qt) e na rigidez inicial (G0) das misturas As análises de variância comprovaram que todos os fatores controláveis estudados foram significativos para as respostas avaliadas e demonstraram que a influência da dosagem de cimento foi muito mais pronunciada, em relação às outras variáveis. O comportamento tensão-deformação das misturas, sob condições não-drenadas, foi típico de materiais cimentados submetidos à baixas tensões confinantes – com geração de poro-pressões negativas devidas à tendência à dilatação. Ainda, ficou demonstrado que o índice porosidade/teor volumétrico de cimento (η/Civ) é adequado para a previsão do comportamento mecânico das misturas resíduo-cimento, considerando os parâmetros estudados – ampliando a possibilidade de aplicação deste índice. Foi observado, que existe uma proporcionalidade direta entre as resistências à tração e à compressão das misturas, que independe da relação η/Civ, sendo esta traduzida através de um valor escalar único (ξ = 0,17). / Mine tailings are materials of low in situ densities and strengths, in general – often susceptible to liquefaction. In view of this, soil improvement methods such as Deep Soil Mixing can be alternatives for the stabilization of these materials. In this sense, based on DSM techniques, this research aims to analyze the mechanical behaviour of cemented gold mine tailings, comparing to its natural condition, evaluating factors that influence the stabilization (cement content, initial water content and type of water for preparing specimens). For this purpose, unconfined compressive tests, splitting tensile tests, ultrasonic pulse velocity tests and undrained triaxial (CIU) tests were used. The results showed that remoulded mine tailings samples presented low strength and liquefaction susceptibility under low confining pressures. In its turn, the tests with cemented gold tailings revealed that: increasing the cement content, decreasing initial water content and using water from the tailings pond (liquor) in moulding provided strength (qu and qt) and initial stiffness (G0) gains on the mixtures of gold mine tailings-Portland cement. In this regard, the variance analysis statistically demonstrated that all the factors chosen on the experiment were significant to the parameters assessed It is also showed that the cement content influence was much more pronounced than other factors. Furthermore, the stress-strain behaviour of the blends is typical of cemented materials under low confining pressures and undrained conditions – with negative pore-pressures build-up. In addition, it is demonstrated that the porosity/cement index controls the mechanical performance of gold tailings-Portland cement blends, considering the whole range of densities and cement contents studied – what broadens the applicability of such index. Finally, it was found a single relationship between tensile (qt) and compressive strength (qu) equal to 0.17, being independent of the porosity/cement ratio.
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Comportamento mecânico de resíduo de mineração estabilizado com cimentoTomasi, Lennon Ferreira January 2018 (has links)
Resíduos de mineração, dispostos em barragens de rejeito, são materiais de baixas densidades e resistências, em geral – muitas vezes, suscetíveis à liquefação. Desta forma, técnicas de melhoramento de solos, tais como o Deep Soil Mixing, surgem como possibilidade à estabilização destes materiais. Neste sentido, baseado nesta técnica, este trabalho visa avaliar o comportamento mecânico de resíduos de mineração de ouro estabilizados com cimento, comparativamente aos rejeitos no estado natural, analisando fatores de influência (quantidade de agente cimentante, umidade inicial das amostras e líquido empregado na moldagem). Para este propósito, ensaios de resistência à compressão simples, de compressão diametral, de ondas ultrassônicas e triaxiais não-drenados (CIU) foram empregados. Os resultados mostram que os resíduos de mineração, nas condições representativas de campo, apresentam baixas resistências e suscetibilidade à liquefação a baixas tensões confinantes. Por sua vez, os ensaios com resíduo estabilizado com cimento revelaram que: o aumento nas taxas de cimentação, a diminuição dos teores de umidade iniciais das amostras e uso de licor proveniente das barragens de rejeito nas moldagens, repercutiram, em geral, em aumentos nas resistências (qu e qt) e na rigidez inicial (G0) das misturas As análises de variância comprovaram que todos os fatores controláveis estudados foram significativos para as respostas avaliadas e demonstraram que a influência da dosagem de cimento foi muito mais pronunciada, em relação às outras variáveis. O comportamento tensão-deformação das misturas, sob condições não-drenadas, foi típico de materiais cimentados submetidos à baixas tensões confinantes – com geração de poro-pressões negativas devidas à tendência à dilatação. Ainda, ficou demonstrado que o índice porosidade/teor volumétrico de cimento (η/Civ) é adequado para a previsão do comportamento mecânico das misturas resíduo-cimento, considerando os parâmetros estudados – ampliando a possibilidade de aplicação deste índice. Foi observado, que existe uma proporcionalidade direta entre as resistências à tração e à compressão das misturas, que independe da relação η/Civ, sendo esta traduzida através de um valor escalar único (ξ = 0,17). / Mine tailings are materials of low in situ densities and strengths, in general – often susceptible to liquefaction. In view of this, soil improvement methods such as Deep Soil Mixing can be alternatives for the stabilization of these materials. In this sense, based on DSM techniques, this research aims to analyze the mechanical behaviour of cemented gold mine tailings, comparing to its natural condition, evaluating factors that influence the stabilization (cement content, initial water content and type of water for preparing specimens). For this purpose, unconfined compressive tests, splitting tensile tests, ultrasonic pulse velocity tests and undrained triaxial (CIU) tests were used. The results showed that remoulded mine tailings samples presented low strength and liquefaction susceptibility under low confining pressures. In its turn, the tests with cemented gold tailings revealed that: increasing the cement content, decreasing initial water content and using water from the tailings pond (liquor) in moulding provided strength (qu and qt) and initial stiffness (G0) gains on the mixtures of gold mine tailings-Portland cement. In this regard, the variance analysis statistically demonstrated that all the factors chosen on the experiment were significant to the parameters assessed It is also showed that the cement content influence was much more pronounced than other factors. Furthermore, the stress-strain behaviour of the blends is typical of cemented materials under low confining pressures and undrained conditions – with negative pore-pressures build-up. In addition, it is demonstrated that the porosity/cement index controls the mechanical performance of gold tailings-Portland cement blends, considering the whole range of densities and cement contents studied – what broadens the applicability of such index. Finally, it was found a single relationship between tensile (qt) and compressive strength (qu) equal to 0.17, being independent of the porosity/cement ratio.
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Comportamento mecânico de resíduo de mineração estabilizado com cimentoTomasi, Lennon Ferreira January 2018 (has links)
Resíduos de mineração, dispostos em barragens de rejeito, são materiais de baixas densidades e resistências, em geral – muitas vezes, suscetíveis à liquefação. Desta forma, técnicas de melhoramento de solos, tais como o Deep Soil Mixing, surgem como possibilidade à estabilização destes materiais. Neste sentido, baseado nesta técnica, este trabalho visa avaliar o comportamento mecânico de resíduos de mineração de ouro estabilizados com cimento, comparativamente aos rejeitos no estado natural, analisando fatores de influência (quantidade de agente cimentante, umidade inicial das amostras e líquido empregado na moldagem). Para este propósito, ensaios de resistência à compressão simples, de compressão diametral, de ondas ultrassônicas e triaxiais não-drenados (CIU) foram empregados. Os resultados mostram que os resíduos de mineração, nas condições representativas de campo, apresentam baixas resistências e suscetibilidade à liquefação a baixas tensões confinantes. Por sua vez, os ensaios com resíduo estabilizado com cimento revelaram que: o aumento nas taxas de cimentação, a diminuição dos teores de umidade iniciais das amostras e uso de licor proveniente das barragens de rejeito nas moldagens, repercutiram, em geral, em aumentos nas resistências (qu e qt) e na rigidez inicial (G0) das misturas As análises de variância comprovaram que todos os fatores controláveis estudados foram significativos para as respostas avaliadas e demonstraram que a influência da dosagem de cimento foi muito mais pronunciada, em relação às outras variáveis. O comportamento tensão-deformação das misturas, sob condições não-drenadas, foi típico de materiais cimentados submetidos à baixas tensões confinantes – com geração de poro-pressões negativas devidas à tendência à dilatação. Ainda, ficou demonstrado que o índice porosidade/teor volumétrico de cimento (η/Civ) é adequado para a previsão do comportamento mecânico das misturas resíduo-cimento, considerando os parâmetros estudados – ampliando a possibilidade de aplicação deste índice. Foi observado, que existe uma proporcionalidade direta entre as resistências à tração e à compressão das misturas, que independe da relação η/Civ, sendo esta traduzida através de um valor escalar único (ξ = 0,17). / Mine tailings are materials of low in situ densities and strengths, in general – often susceptible to liquefaction. In view of this, soil improvement methods such as Deep Soil Mixing can be alternatives for the stabilization of these materials. In this sense, based on DSM techniques, this research aims to analyze the mechanical behaviour of cemented gold mine tailings, comparing to its natural condition, evaluating factors that influence the stabilization (cement content, initial water content and type of water for preparing specimens). For this purpose, unconfined compressive tests, splitting tensile tests, ultrasonic pulse velocity tests and undrained triaxial (CIU) tests were used. The results showed that remoulded mine tailings samples presented low strength and liquefaction susceptibility under low confining pressures. In its turn, the tests with cemented gold tailings revealed that: increasing the cement content, decreasing initial water content and using water from the tailings pond (liquor) in moulding provided strength (qu and qt) and initial stiffness (G0) gains on the mixtures of gold mine tailings-Portland cement. In this regard, the variance analysis statistically demonstrated that all the factors chosen on the experiment were significant to the parameters assessed It is also showed that the cement content influence was much more pronounced than other factors. Furthermore, the stress-strain behaviour of the blends is typical of cemented materials under low confining pressures and undrained conditions – with negative pore-pressures build-up. In addition, it is demonstrated that the porosity/cement index controls the mechanical performance of gold tailings-Portland cement blends, considering the whole range of densities and cement contents studied – what broadens the applicability of such index. Finally, it was found a single relationship between tensile (qt) and compressive strength (qu) equal to 0.17, being independent of the porosity/cement ratio.
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Alternativní způsoby založení kruhové nádrže v jemnozrnných zeminách / Alternative methods for foundation the circular tank in fine-grained soilsVodáček, Ondřej January 2016 (has links)
Foundations on unbearable and yielding subsoil require such actions as to achieve both desired bearing capacity and limited settlement. Issue is presented at foundation the circular tank in saturated fine-grained soils, circular tank in Klobouky u Brna in particular. Comparison analysis is performed for alternative methods (shallow foundation, vibro stone columns, deep soil mixing, pile foundation). Differential and total settlement, time-depending analysis and baseplate stress state (bending moment, shear force) are assessed for each alternative. Pile foundation provides the best results regarding total and differential settlement, but baseplate is also under high puncture shear stress. Vibro stone columns seem suitable due to time-depending analysis of settlement, on the other hand settlement reductions are not just as good. Deep soil mixing provides satisfactory alternative for both pile foundation and vibro stone columns. Under such circumstances shallow foundation is not suitable.
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Miljöpåverkan vid grundläggning i samband med vägbyggnad : En komparativ fallstudie av inblandningspelare, lättklinker, skumglas och cellplast (EPS) ur ett hållbart och ekonomiskt perspektiv / Environmental impacts of foundation methods in connection to road construction : A comparative case study of deep soil mixing, expanded clay lightweight aggregate, foam glass and expanded polystyrene foam (EPS) from an environmental and economical perspectiveBrännmark, Disa, Cano Norberg, Desirée January 2019 (has links)
Jordens klimat varierar normalt över tid, men aldrig tidigare har klimatförändringarna varit så snabba och påtagliga. Stigande temperaturer, förhöjda havsnivåer och hotade ekosystem är till stor del en följd av människans miljöpåverkan som genom sitt utnyttjande av resurser och utsläpp bidrar till den utökade växthuseffekten. Alla berörs och samtliga måste ta sitt ansvar för att förhindra att detta fortskrider. Genom att förstå miljökonsekvenserna av sitt agerande kan bättre förutsättningar skapas för kommande generationer. Studier visar att byggbranschen står för nästan en tredjedel av de totala utsläppen av växthusgaser, men att det fortfarande finns kunskapsluckor kring var miljöpåverkan är som störst. Genom klimatavtal, branschöverskridande forum och verktyg i form av livscykelanalyser och miljövarudeklarationer kan kunskapen lyftas. Ett flertal lättillgängliga verktyg med generiska data har utvecklats för livscykelanalyser av byggnader, men för anläggningssektorn finns ännu inte helt anpassade verktyg. I nuläget väljs grundläggningsmetod mestadels utifrån den ekonomiska aspekten, vilket bidrar till att miljöaspekten inte får önskvärt utrymme. Denna studie är en fallstudie som söker svar på vilken grundläggningsmetod som lämpar sig bäst ur ett hållbart och ekonomiskt perspektiv i en specifik jordprofil av lera som är vanligt förekommande kring Uppsala. För att lyfta kunskapen kring miljöpåverkan, jämfördes fyra vanliga grundläggnings-metoder: inblandningspelare med Multicem och lättfyllnadsmetoderna; lättklinker, skumglas och cellplast. Utifrån sättningsberäkningar i jordprofilen kunde dimensioneringar utföras av materialåtgång för respektive metod. Dimensioneringen användes sedan för att utföra kostnadsuppskattningar och beräkningar av klimatpåverkan, i form av koldioxidekvivalenter, under produktframställning och transporter till den specifika platsen. Utöver detta undersöktes bedömningen av det kemiska innehållet genom två miljödatabaser, BASTA och SundaHus. Resultatet visade att skumglas har den lägsta totala klimatpåverkan, där ungefär hälften av koldioxid¬utsläppen kommer från produktionen och resterande del från transporter. Det tyder på att det geografiska läget för grundläggningen spelar en väsentlig roll för resultatet av klimatpåverkan. Skumglas erhåller bästa betyg i BASTA och SundaHus men har den högsta totalkostnaden av de jämförda alternativen i studien. Inblandningspelare med Multicem som bindemedel har den lägsta totalkostnaden och den näst lägsta klimatpåverkan. Genom intervjustudien konstaterades att val av grundläggningsmetod främst avgörs av kostnaden vilket innebär att Multicem förmodligen skulle väljas i första hand. Utifrån kemiskt innehåll är bedömningen däremot ofullständig, eftersom Multicem ännu inte finns deklarerad i SundaHus. Sammanfattningsvis beror valet av grundläggningsmetod på ett flertal faktorer där företag måste värdera vilken faktor som har högst prioritet. / The climate normally varies over time but never before has the climate change been so rapid and tangible. Rising temperatures, elevated sea levels and endangered ecosystems are consequences of human impact on the environment. The use of resources and emissions contributes to the increased impact on the greenhouse effect. Everyone is affected by the climate change and must take his or her responsibility to create better conditions for future generations by understanding the environmental consequences of his or her actions. Studies reveal that the construction industry accounts for almost one third of the total greenhouse gas emissions but there are still gaps in knowledge about the environ¬mental impact. The knowledge can increase through agreements on climate actions, industry-wide forums and tools such as life-cycle assessments and environmental product declarations. Several available tools with generic data have been developed for life-cycle assessments of buildings, but for the infrastructure sector the tools are still not fully developed. Today, the foundation method is mostly chosen based on the economical aspect, and the environmental aspect is not given priority. The aim of this case study is to investigate which foundation method is best suited from an environ-mentally sustainable and economical perspective in a specific soil profile of clay which is common around Uppsala. To raise awareness of environmental impact, four common foundation methods were compared: deep soil mixing with Multicem and light filling methods; expanded clay lightweight aggregate, foam glass and expanded polystyrene foam. Based on settlement calculations in the soil profile, dimensions could be made for consumption of material for each method. The consumption of material was used to make estimations of costs and calculations of climate effect, in terms of carbon dioxide equivalents, during production of the material and transport to the specific location. In addition, the assessment of the chemical content was examined through two environmental databases, BASTA and SundaHus. The result revealed that foam glass has the lowest total climate effect, where about half of the carbon dioxide emissions come from production and the remainder from transport. This indicates that the geographical location of the foundation is important for the result of the climate impact. Foam glass receives the best ratings in BASTA and SundaHus but has the highest total cost of the compared alternatives in the study. Deep soil mixing with Multicem as binder has the lowest total cost and the second lowest climate impact. Through the interview study, it was found that the choice of foundation method is mainly determined by the cost, which means that Multicem would probably be prefered. Based on chemical content the assessment is incomplete since Multicem has not been declared in SundaHus. In summary, the choice of foundation method depends on a number of factors in which companies must evaluate which factor has the highest priority.
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