Evaluation of the geotechnical behaviour of a volcanic soil wall with additions of lime and cement against landslides

Davila, C., Davila, C., Vera, R., Pacheco, L., Duran, G.

28 February 2020

The construction of earth walls can be a significant response to prevent the next landslides from reaching the road and avoid accidents. Therefore, a material of the same slope was used and reinforced with mixtures of lime and cement, with this same reinforced material a mechanically stabilized hypothetical earth wall (MSE) was developed. An analysis of the original slope was developed to check if there was a possible failure through its safety factor. Then, a hypothetical wall was developed with a floor reinforced with mixtures, in order to assess its overall safety factor and its maximum landslides. According to the results, in principle it was determined that the dosage M-3 / C-4-4 improves in a range of 30% to 37% the friction angle. In addition, it was found that a reinforced wall, that is to say with Lime and cement additions, presents a better behaviour. In its effect, its displacements are about 8 mm and have a global factor of 1.23.

Geotechnical behaviour

Volcanic soil

Lime

Landslides

Studium vlastností vápenných malt pro obnovu omítek historických staveb / Investigation of the properties of lime mortars for the renovation of historical building plasters

Kolouchová, Eliška

January 2015

The theoretic part of this diploma thesis interprets historical procedures of lime mortar manufacturing and modern options for the historical lime plaster renovation. The experimental part of this diploma thesis aims for the comparison of physical-mechanic characteristic of lime mortar manufactured with different kinds of lime. The main goal is verifying of positive influence of using the aged lime mortar on its physical-mechanic characteristics.

Long-term effects of hydrated lime and quicklime on the decay of human remains using pig cadavers as human body analogues

Schotsmans, Eline M.J., Fletcher, Jonathan N., Denton, J., Janaway, Robert C., Wilson, Andrew S.

January 2014

No / An increased number of police enquiries involving human remains buried with lime have demonstrated the need for more research into the effect of different types of lime on cadaver decomposition and its micro-environment. This study follows previous studies by the authors who have investigated the effects of lime on the decay of human remains in laboratory conditions and 6 months of field experiments. Six pig carcasses (Sus scrofa), used as human body analogues, were buried without lime with hydrated lime (Ca(OH)2) and quicklime (CaO) in shallow graves in sandy-loam soil in Belgium and recovered after 17 and 42 months of burial. Analysis of the soil, lime and carcasses included entomology, pH, moisture content, microbial activity, histology and lime carbonation. The results of this study demonstrate that despite conflicting evidence in the literature, the extent of decomposition is slowed down by burial with both hydrated lime and quicklime. The more advanced the decay process, the more similar the degree of liquefaction between the limed and unlimed remains. The end result for each mode of burial will ultimately result in skeletonisation. This study has implications for the investigation of clandestine burials, for a better understanding of archaeological plaster burials and potentially for the interpretation of mass graves and management of mass disasters by humanitarian organisation and DVI teams.

The industrial utilization of carbide generator lime wastes

Teeter, Robert Lansdowne

22 June 2010

Master of Science

LD5655.V855 1941.T437

Electric generators

Lime

Rapid Soil Stabilization of Soft Clay Soils for Contingency Airfields

Rafalko, Susan Dennise

13 December 2006

Since World War II, the military has sought methods for rapid stabilization of weak soils for support of its missions worldwide. Over the past 60 years, cement and lime have consistently been found to be among the most effective stabilizers for road and airfield applications, although recent developments show promise using nontraditional stabilizers. The purpose of this research is to determine the most effective stabilizers and dosage rates of stabilizers to increase the strength of soft clay soils (initial CBR = 2) within 72 hours for contingency airfields to support C-17 and C-130 aircraft traffic. Pavement design charts for various aircraft loading conditions were generated using the Pavement-Transportation Computer Assisted Structural Engineering Program, which was developed by the Engineering Research and Development Center to determine ranges of required strength and thickness for an underlying subbase layer and a top base layer, such as stabilized soil, crushed-aggregate, or aluminum matting. From laboratory studies, the required design strengths for many loading conditions were achieved by treating clay with 2%-4% pelletized quicklime for the underlying subbase layer, and treating clay with 2%-4% pelletized quicklime, 1% RSC15 fibers, and 11% Type III cement for the top base layer. While the base layer requires a minimum thickness of six inches, the required subbase layer thickness is often quite large and may be difficult to construct. However, newly developed construction equipment currently used for subgrade stabilization on civilian projects should be able to stabilize the soil down to these large required depths and make construction possible. / Master of Science

stabilization

cement

lime

pavement design

fibers

Estudo de campo e laboratório do comportamento mecânico de um solo sulfatado estabilizado com cal / Field and Laboratory Study of the Mechanical Behavior of Lime Stabilized Sulfate Soils

Marín, Eduardo José Bittar

January 2017

Solos que contem sulfatos apresentam complicações no seu comportamento quando são tratados com estabilizadores à base de cálcio como a cal. Quando um solo que contem sulfatos reage com cal, formam-se minerais expansivos como a etringita e a taumasita que são responsáveis pela deterioração e falha de vários projetos de solos estabilizados. Tem-se bem demostrado sob ensaios de laboratório que a relação vazios/(agente cimentante) é um parâmetro adequado para a avaliação e previsão de comportamentos mecânicos, como a resistência à compressão simples de vários tipos de solos cimentados artificialmente. Este trabalho pretende encontrar se as previsões da relação vazios/cal na resistência à compressão simples são efetivas para dimensionar misturas de solos sulfatados estabilizados com cal construídas em campo. Para lograr esse objetivo executou-se um programa experimental de ensaios de laboratório em conjunto com a construção de trechos experimentais de solo-cal. Os ensaios de laboratório ajudaram comprender o comportamento de solos sulfatados estabilizados com cal, e demostraram que a relação vazios/cal controla a resistência à compressão simples desses solos estabilizados evidenciando uma relação coerente com os resultados das resistências de campo, encontrando-se que as resistências de campo e laboratório são controladas por essa relação e que podem ser previstas pela mesma Ensaios de Difração de Raios X (DRX) e Microscopia Eletrônica de Varredura (MEV) identificaram minerais expansivos (etringita) nas amostras estabilizadas com cal e cinza-cal. Finalmente em laboratório foram testadas algumas soluções recomendadas na literatura para melhorar a estabilização de solos sulfatados mediante um projeto experimental demostrando que a estabilização com cinza volante e cal melhoram consideravelmente a resistência, a durabilidade e a estabilidade volumétrica de solos sulfatados enquanto que a técnica do mellowing mostrou melhoras apenas na estabilidade volumétrica do material. / Sulfate rich soils present complications in their behavior when are treated with calcium-based stabilizers such as lime. When a soil containing sulfates reacts with lime, expansive minerals such as ettringite and thaumasite are formed which are responsible for the deterioration and failure of various stabilized soil projects. It has been well demonstrated under laboratory tests that the relationship porosity/cementing agent ratio is an appropriate parameter for the evaluation and prediction of mechanical behavior, such as the unconfined compression strength of various types of artificially cemented soils. This work intends to find out if the predictions of the relation porosity/lime in the unconfined compression strength are effective to design lime stabilized soils mixtures built in field. In order to achieve this objective an experimental program of laboratory tests was carried out together with experimental road sections of lime stabilized soils were built. The laboratory tests helped to understand the behavior of lime stabilized sulfate soils, and demonstrated that the void/lime ratio controls the unconfined compression strength of these stabilized soils and that exist a consistent relationship with the field unconfined compression strength results, finding that both, field and laboratory strengths are controlled and can be predicted by this ratio X-ray diffraction (XRD) and Scanning Electron Microscopy (SEM) tests were performed to identify expansive minerals (ettringite) on soils samples stabilized whit lime and fly ash-lime. Finally, some solutions recommended in the literature have been tested in laboratory to improve the stabilization of sulfate rich soils through an experimental design, showing that the fly ash-lime stabilization improve considerably the strength, durability and volumetric stability of the sulfate rich soils whereas that for the mellowing the improve was observed only on the volumetric stability of the material.

Estabilização do solo

Cal

Incêndios

Resistência à compressão

Soil stabilization

Sulfate soils

Soil-lime

Ettringite

Porosity/lime ratio

Metodologias para a previsão do comportamento mecânico e para a análise da variação da porosidade de um solo siltoso tratado com cal em diferentes tempos de cura / Methodologies to foresee the mechanical behavior and analysis the porosity variation of a silty soil treated with lime in different curing time periods

Johann, Amanda Dalla Rosa

January 2013

A técnica de tratamento de solos com cal ou cimento vem sendo empregada com sucesso na engenharia geotécnica, melhorando as características do solo, que por ser um material complexo e muito variável nem sempre satisfaz as necessidades da obra a ser realizada. As últimas pesquisas em solos tratados com cal mostram o desenvolvimento de metodologias de dosagem baseadas em critérios racionais (como a relação água/cimento para o concreto), onde a relação volume de vazios/volume de cal desempenha papel fundamental na obtenção da resistência desejada. O volume de vazios (ou a porosidade) é um fator importante nestas metodologias de dosagem, e ainda não existem técnicas que quantifiquem este fator (como o ensaio de porosimetria por injeção de mercúrio para o concreto) e também modelos que permitam o entendimento do comportamento da porosidade dessas misturas o longo do tempo de cura (como o modelo de Powers para o concreto). Assim, esta pesquisa tem como objetivo verificar a influência da quantidade de cal (Ca), da porosidade (h), do teor de umidade (w) e do tempo de cura (t), sobre a resistência à compressão simples (qu), sobre a resistência à tração (qt) e sobre a rigidez inicial (Go) de um solo siltoso estabilizado com cal (misturas caulim-cal), verificando a adequação do uso da relação vazios/cal na estimativa de qu, qt e Go. Além disso, esta pesquisa busca quantificar a porosidade dessas misturas solo-cal e também desenvolver um modelo, que permita o entendimento do comportamento da sua porosidade ao longo do tempo de cura. Para atingir os objetivos da pesquisa foram realizados ensaios de resistência à compressão simples, ensaios de resistência à tração por compressão diametral, ensaios para a medida de Go, ensaios de sucção matricial e ensaios de porosimetria por injeção de mercúrio. Os resultados dos ensaios de resistência à compressão simples, de resistência à tração e de rigidez inicial demonstram que o aumento da quantidade de Ca, a diminuição da h e o aumento do t provoca o aumento de qu, qt e Go. Sendo que, qu, qt e Go crescem linearmente com o aumento da quantidade de cal e exponencialmente com a redução da sua porosidade. Assim, verifica-se que, a relação vazios/cal (h/Cav), definida pela razão entre a porosidade da mistura compactada e o teor volumétrico de cal, demonstra ser um parâmetro adequado na estimativa de qu, qt e Go. A partir desses mesmos resultados, observase que a w também desempenha um papel fundamental na previsão de qu, qt e Go. Além disso, a partir dos ensaios de resistência à compressão simples, resistência à tração e rigidez inicial, observa-se que a existência de relações únicas e distintas no controle de qu, qt e Go em função da h, do Cav e da w mostrou-se muito eficiente para relações de dosagem. Relações entre qu, qt, Go e h/Cav também, foram muito satisfatórias. Além disso, foram realizadas análises estatísticas dos dados obtidos neste experimento, e os resultados demonstram, a partir da análise da variância, que todos os fatores controláveis escolhidos no experimento são significativos. Os resultados dos ensaios de porosímetro por intrusão de mercúrio demonstram que a porosidade diminui com o tempo de cura. Porém, o modelo de Powers não se adaptou perfeitamente na previsão da variação da porosidade das misturas caulim-cal estudadas. / The technique of treating soil with lime or cement has been used successfully in geotechnical engineering, improving the characteristics of the soil, which is a highly variable and complex material, and does not always meet the needs of the earthwork to be performed. The last researches in soils treated with lime are in the development of dosage methodologies based on rational criteria (such as water/cement ratio for concrete), where the voids/lime ratio plays a fundamental role in the assesstment of the target strength. The void volume (or porosity) is an important factor in these dosage methodologies, and there are not techniques that quantify this factor (as the test porosimetry with intrusion of mercury, for concrete) and also models that allow understanding the behavior of porosity for these mixtures in long curing times (such as the Powers’s model for concrete). Thus, this research aims to determine the influence of the amount of lime (Ca), porosity (h), moisture content (w) and curing time period (t) on the unconfined compression strength (qu), tensile strength (qt) and initial stiffness (Go) of a silty soil stabilized with lime (kaolin-lime mixtures), checking the suitability of the use of voids/lime ratio in estimating qu, qt and Go. Besides, this research aims to quantify the porosity of these soil-lime mixtures and also adjusting a model that allows understanding the behavior of their porosity during the curing time. For that, a number of unconfined compression tests, splitting tensile tests, the measurement of Go, measurement of matric suction and porosimetry with intrusion of mercury tests were carried out in present work. The results of unconfined compression strength, tensile strength and initial stiffness show that increasing the amount of Ca, decreasing of h and increasing of t, causes increased of qu, qt and Go. Further, qu, qt and Go grow linearly with the increased amount of lime and exponentially with reducing its porosity. The voids/lime ratio, defined as the ratio of the compacted mixture porosity and the lime volumetric content, adjusted by an exponent, proves to be an appropriate parameter to estimate the qu, qt and Go. From these results, it is observed that the w also plays a fundamental parameter in predicting the qu, qt and Go. Moreover, it is noted that the existence of distinct and unique relationships in the control of qu, qt and Go according to h, Cav and w proved to be very efficient for dosage relationships. Relations between qu, qt, Go and h/Cav were very satisfactory too. Furthermore, statistical analyzes were performed of the results obtained in this experiment, and results demonstrate, through analysis of variance, that all controllable factors chosen in the experiment are significant. The results of test porosimetry with intrusion of mercury show that the porosity decreases with increasing curing time. However, the Powers’s model has not adapted perfectly to predict the variation of the porosity of kaolin-lime mixtures studied.

Comportamento mecânico

Estabilização do solo

Solo siltoso

Cal

Soil-lime

Voids/lime ratio

Analysis of variance

Porosity

Reduction of TRS Emissions from Lime Kilns

Aminvaziri, Bahar

15 December 2009

The pulp and paper industry has been struggling to meet the new and stringent TRS (Total Reduced Sulphur) emission compliance standards established in recent years. However, a new approach by some regulatory bodies gives intricate operational parameters a new and important role in achieving environmental compliance. TRS compounds that cause the distinctive pulp mill odour, originate from sodium sulphide in white liquor used in the kraft pulping process. Up to 20% of TRS emissions could originate from the lime kiln and lime mud solids content is one of the operational parameters that could help reduce the TRS emissions from the lime kiln. Residual sodium sulphide in the lime mud that results in TRS gases, is dissolved in the moisture content of the mud. Although efficient lime mud washing can remove most of the residual sodium sulphide, the remaining moisture content of the mud still contains some sodium sulphide. Therefore, improved lime mud dewatering can be effective in reducing the TRS emissions from the lime kiln. Data presented in this study confirms that as the lime mud solids content increases, TRS emissions from the lime kiln decrease. Data analysis demonstrates a negative linear correlation at 5% significance level between TRS emissions and lime mud solids.

Total Reduced Sulfur

Lime Kiln

Pulp and Paper

Lime Mud Solids

Air Emissions

TRS

0542

0775

Reduction of TRS Emissions from Lime Kilns

Aminvaziri, Bahar

15 December 2009

The pulp and paper industry has been struggling to meet the new and stringent TRS (Total Reduced Sulphur) emission compliance standards established in recent years. However, a new approach by some regulatory bodies gives intricate operational parameters a new and important role in achieving environmental compliance. TRS compounds that cause the distinctive pulp mill odour, originate from sodium sulphide in white liquor used in the kraft pulping process. Up to 20% of TRS emissions could originate from the lime kiln and lime mud solids content is one of the operational parameters that could help reduce the TRS emissions from the lime kiln. Residual sodium sulphide in the lime mud that results in TRS gases, is dissolved in the moisture content of the mud. Although efficient lime mud washing can remove most of the residual sodium sulphide, the remaining moisture content of the mud still contains some sodium sulphide. Therefore, improved lime mud dewatering can be effective in reducing the TRS emissions from the lime kiln. Data presented in this study confirms that as the lime mud solids content increases, TRS emissions from the lime kiln decrease. Data analysis demonstrates a negative linear correlation at 5% significance level between TRS emissions and lime mud solids.

Total Reduced Sulfur

Lime Kiln

Pulp and Paper

Lime Mud Solids

Air Emissions

TRS

0542

0775

Traditional lime mortar and plaster : Reconstruction with emphasis on durability

Balksten, Kristin

January 2007

Lime mortar and plaster have been investigated with the aim to improve the knowledge on how to make them as durable as before the cement technology was developed. The background was the durability problems experienced for newly produced lime plaster on the medieval churches on the island of Gotland, Sweden. In some cases the new lime plaster façades showed severe frost damages after only one winter. Although the lime was burnt and produced according to old local traditions, the lime mortar was still mixed and worked onaccording to methods developed for lime-cement mortar. This often led to a very porous lime plaster with a lime shell in the surface and such a plaster has been shown to be sensitive to frost expansion. Field studies were combined with laboratory studies of thin section specimens. Optical microscopy and scanning electron microscopy have been important analytical methods showing the porosity and the structure of the binder and aggregate materials. The investigations have been carried out on both historic and on newly made reference mortar and plaster. The field studies were carried out mainly on Gotland, using local materials. The influence of the raw materials, i.e. lime, aggregate and blending ratio was investigated. The focus has been on the workability of the fresh mortars as well as the pore structure of the carbonated plaster. The craftsmanship, meaning mixing and application of mortar and working the plaster surface, was studied in order to clarify its final pore structure. The pore structure in a material determines many of its technical properties, such as moisture transportation, compressive strength, permeability and frost resistance. All these properties are closely connected to the durability of the mortar and plaster. The permeability of the plaster has an impact also on the durability of the covered construction materials. Behind low-permeable plasters made with hydraulic binder, examples of extensive damages of rotten wood and leached lime have been shown. The investigations have shown the importance of choosing a mortar adjusted to the building construction. They also showed the importance of choosing a blending ratio adjusted to the specific binder and sand used in order to get a mortar with a suitable pore structure and good durability. It has also shown the importance of knowing when and how to work on the plaster surface in order to obtain a homogenous material that is well receptive for lime wash and has a good frost resistance. The combination of all the investigations has led to a method for reconstructing historic mortar and plaster with good durability.

lime plaster

lime mortar

masonry

craftsmanship

pore structure

frost resistance

historic mortar