Experimental investigation static liquefaction of lightly cemented sands

Elhadayri, Farj, Civil & Environmental Engineering, Faculty of Engineering, UNSW

January 2008

An experimental investigation was conducted on the static liquefaction behaviour of very loose lightly cemented sands. Undrained and drained triaxial compression tests, one dimensional consolidation, high stress compression, and unconfined compression tests were performed on artificially prepared lightly cemented loose samples with cement-sand ratios of 2, 4 and 6%. Additional tests were also conducted on uncemented samples prepared at the same initial void ratio as the cemented samples. Besides the influence of degree of cementation, the effects of void ratio and confining pressure on the liquefaction potential of cemented sands were examined. The aim of this study is to make significant contribution to the understanding of static liquefaction failures in lightly cemented sands. It is shown that cementation could increase the initial stiffness and yield strength of cemented sands but its effect might decrease considerably after the peak strength because of destruction of the cementation bond. The response of cemented sands at lower cement contents was very similar to the response of loose sands and behaviour approached the response of medium to dense sands with increase in the degree of cementation. It is also shown that degree of cementation has a significant influence on liquefaction resistance. Even though the presence of small amounts of cementation did not prevent liquefaction failure, the liquefaction resistance of cemented sands generally increased for higher degrees of cementation. The consolidation, high stress compression and unconfined compression tests demonstrated the effect of cementation in increasing both the stiffness and strength of cemented sands. The unconfined compression strength increased approximately linearly with the increase in cement content. The rate of strength gain increased with an increase in the dry density of the compacted sample, indicating that the cementation was more for denser samples.

cementation.

cemented sands.

liquefaction.

Experimental investigation static liquefaction of lightly cemented sands

Elhadayri, Farj, Civil & Environmental Engineering, Faculty of Engineering, UNSW

January 2008

An experimental investigation was conducted on the static liquefaction behaviour of very loose lightly cemented sands. Undrained and drained triaxial compression tests, one dimensional consolidation, high stress compression, and unconfined compression tests were performed on artificially prepared lightly cemented loose samples with cement-sand ratios of 2, 4 and 6%. Additional tests were also conducted on uncemented samples prepared at the same initial void ratio as the cemented samples. Besides the influence of degree of cementation, the effects of void ratio and confining pressure on the liquefaction potential of cemented sands were examined. The aim of this study is to make significant contribution to the understanding of static liquefaction failures in lightly cemented sands. It is shown that cementation could increase the initial stiffness and yield strength of cemented sands but its effect might decrease considerably after the peak strength because of destruction of the cementation bond. The response of cemented sands at lower cement contents was very similar to the response of loose sands and behaviour approached the response of medium to dense sands with increase in the degree of cementation. It is also shown that degree of cementation has a significant influence on liquefaction resistance. Even though the presence of small amounts of cementation did not prevent liquefaction failure, the liquefaction resistance of cemented sands generally increased for higher degrees of cementation. The consolidation, high stress compression and unconfined compression tests demonstrated the effect of cementation in increasing both the stiffness and strength of cemented sands. The unconfined compression strength increased approximately linearly with the increase in cement content. The rate of strength gain increased with an increase in the dry density of the compacted sample, indicating that the cementation was more for denser samples.

cementation.

cemented sands.

liquefaction.

Experimental investigation static liquefaction of lightly cemented sands

Elhadayri, Farj, Civil & Environmental Engineering, Faculty of Engineering, UNSW

January 2008

An experimental investigation was conducted on the static liquefaction behaviour of very loose lightly cemented sands. Undrained and drained triaxial compression tests, one dimensional consolidation, high stress compression, and unconfined compression tests were performed on artificially prepared lightly cemented loose samples with cement-sand ratios of 2, 4 and 6%. Additional tests were also conducted on uncemented samples prepared at the same initial void ratio as the cemented samples. Besides the influence of degree of cementation, the effects of void ratio and confining pressure on the liquefaction potential of cemented sands were examined. The aim of this study is to make significant contribution to the understanding of static liquefaction failures in lightly cemented sands. It is shown that cementation could increase the initial stiffness and yield strength of cemented sands but its effect might decrease considerably after the peak strength because of destruction of the cementation bond. The response of cemented sands at lower cement contents was very similar to the response of loose sands and behaviour approached the response of medium to dense sands with increase in the degree of cementation. It is also shown that degree of cementation has a significant influence on liquefaction resistance. Even though the presence of small amounts of cementation did not prevent liquefaction failure, the liquefaction resistance of cemented sands generally increased for higher degrees of cementation. The consolidation, high stress compression and unconfined compression tests demonstrated the effect of cementation in increasing both the stiffness and strength of cemented sands. The unconfined compression strength increased approximately linearly with the increase in cement content. The rate of strength gain increased with an increase in the dry density of the compacted sample, indicating that the cementation was more for denser samples.

cementation.

cemented sands.

liquefaction.

Experimental Studies on The Mechanical Behaviour of Cohesive Frictional Granular Materials

Kandasami, Ramesh Kannan

January 2016

Thss thesis presents the results of an experimental programme on the static mono-tonic response of cohesive-frictional granular materials. The purpose of this experimental programme was to gain insight into the mechanical behaviour of uncemented sands, and sands with small percentages of cementation. With this objective in sight, the research involved understanding and delineating the e ects of four variables: the intermediate principal stress, stress inclination, cohesion (or cementation), and particle morphology. The hollow cylinder torsion (HCT) apparatus, which allows control over both the magnitude and direction of principal stresses, was used in this study to carry out a series of elemental tests on the model materials. The test results were analysed in a plasticity theory based framework of critical state soil mechanics. Drained and undrained HCT tests were conducted on a model angular sand to understand the combined influence of intermediate principal stress ratio (b) and principal stress inclination ( ). Sand specimens were reconstituted to a given density and confining pressure, and were sheared to large strains towards a critical state. The stresses at the critical state with varying `b' were mapped on an octahedral plane to obtain a critical state locus. The shape of this locus closely resembles a curved triangle. Also these specimens showed increased non-coaxiality between the stress and strain increment directions at lower strains. This non-coaxiality decreased significantly, and the response at the critical state was by and large coaxial. The effect of `b' and ` ' on the flow potential, phase transformation, and critical state was also investigated. At phase transformation, ` ' plays a more dominant role in determining the flow potential than `b'. The shape and size of the critical state locus remained the same immaterial of the drainage conditions. Next, small amounts of cohesion (using ordinary Portland cement) was added to this sand ensemble to study the mechanical behaviour of weakly cemented sands. The peak in the stress strain curve was used to signal the breakdown of cohesion further leading to a complete destructuring of the sand at the critical state. The response of the cemented sand changes from brittle to ductile with increase in confining pressure, while reverses with increase in density and `b'. Stress-dilatancy response for the weakly cemented materials shows the non coincidence of peak stress ratio and maximum value of dilation unlike purely frictional materials. This mismatch in peak stress ratio and maximum dilation diminishes with increase in confining pressure. The peak stress (cemented structured sand) locus and the critical state (destructured) locus were constructed on the octahedral plane from these HCT tests. The critical state locus of the cemented sand when it is completely destructured almost coincides with the critical state locus of the clean sand. Using this experimental data set, some important stress-dilatancy relationships (like Zhang and Salgado) and failure criteria (Lade's isotropic single hardening failure criteria and SMP failure criteria) were benchmarked and their prediction capabilities of such models were discussed in detail. The effect of particle morphology was also investigated in this testing programme. Rounded glass ballotini and angular quartzitic sand which occupy two extreme shapes were selected, and a series of HCT tests at different `b' values were con-ducted. A larger sized CS locus was obtained for angular particles and it encompassed the critical state locus of the spherical glass ballotini. Spherical particles exhibit a predominantly dilative behaviour, however present a lower strength at the critical state. The mobilization of strength as a result of rearrangement of angular particles and the consequent interlocking is higher. Even with contractive behaviour which is reflected in the higher values of critical state friction angle and the larger size of the yield locus for sand. Finally, a series of unconfined compression tests were performed to understand if there exists a scale separation in cohesive frictional materials. Specimens were reconstituted to a range of sizes while maintaining a constant aspect ratio and density. As the specimen size increased, the peak strength also increases, counter to an idea of a generalized continuum for all model systems. The observed secondary length scale (in addition to the continuum length scale) is obverse to the one observed in quasi-brittle materials such as concrete, rock. In order to ascertain the reason behind this phenomenon, a series of tomography studies were carried out on these contact-bound ensembles. The presence of cohesion between the grains brings about an \entanglement" between the grains, which contributes to increase in strength, with increase in the size of the sample. This in e ect bringing forth a second length scale that controls the behaviour of these cohesive frictional granular materials. This experimental data set provides quantification of various aspects of the me-chanical response of both cemented and uncemented granular materials under myriad stress conditions. This data set is also extremely useful in developing and bench-marking constitutive models and simulations.

Cohesive Frictional Granular Materials

Granular Materials-Mechanical Behaviour

Cemented Sands

Sands Mechanical Behavior

Weakly Cemented Sands

Hollow Cylinder Torsion

Frictional Granular Materials

Particle Morphology

Civil Engineering

O índice porosidade/teor volumétrico de cimento (η/Civ) como um parâmetro de estado para areias cimentadas

Leon, Helena Batista

January 2018

A adoção de técnicas de melhoramento de solos é prática cada vez mais recorrente em obras geotécnicas, contudo, os critérios de dosagem e parâmetros de previsão do comportamento desses solos parecem não acompanhar a evolução tecnológica das referidas técnicas. O parâmetro de estado para areias (ψ) não consegue representar o comportamento de areias artificialmente cimentadas, por levar em consideração apenas a influência do índice de vazios e do estado de tensões. Propõe-se, neste estudo, instituir o índice porosidade/teor volumétrico de cimento (η/Civ) como um parâmetro de estado para areias artificialmente cimentadas, por ser um critério racional que relaciona a porosidade da mistura compactada com o teor volumétrico de cimento adicionado. A partir da utilização desse parâmetro, é possível calibrar a quantidade de cimento e a energia de compactação utilizada, a fim de proporcionar uma mistura que atenda aos requisitos de projeto e que seja viável de executar em obra com os recursos materiais e financeiros disponíveis. O programa experimental compreendeu a realização de 17 ensaios triaxiais, drenados e não drenados, analisados em conjunto com resultados já obtidos em estudos anteriores. Análises do comportamento tensão-deformação, variação volumétrica-deformação axial, geração de poropressão, trajetórias de tensões drenadas e não drenadas, envoltórias de resistência, comportamento tensão-dilatância, da aplicação da teoria do estado crítico e uma breve análise estatística embasaram a comprovação de que o parâmetro η/Civ é adequado para previsão do comportamento de corpos de prova de areia artificialmente cimentados. / The adoption of soil improvement techniques is becoming more frequent in geotechnical works, however, the dosage criteria and the parameters used to predict the soil behavior do not seem to follow the technological evolution of these techniques. The state parameter for sands (ψ) cannot represent the behavior of artificially cemented sands because it considers only the influence of the void ratio and the stress state. It is proposed to establish the porosity/volumetric content of cement (η/Civ) as a state parameter for artificially cemented sands, since it is a rational criterion which relates the porosity of the compacted mixture to the volumetric content of cement added. By using this parameter, it is possible to calibrate the amount of cement and the compaction energy used in order to provide a mixture that meets the design requirements and that is feasible to perform on site construction with the material and financial resources available there. The experimental program included the realization of 17 triaxial testes, performed in the drained and undrained conditions, analyzed simultaneously with other results obtained from previous studies. Analysis of stress-strain behavior, volumetric variation-axial strain, pore pressure development, drained and non-drained stress paths, resistance envelope, stress-dilatation behavior, the application of the critical state theory, and a brief statistical analysis supported that the η/Civ parameter is suitable for predicting the behavior of artificially cemented sand specimens.

Solo-cimento

Solo : Melhoramento

Ensaios triaxiais

Porosidade

State parameter

Artificially cemented sands

Triaxial tests

Porosity

Cement content

O índice porosidade/teor volumétrico de cimento (η/Civ) como um parâmetro de estado para areias cimentadas

Leon, Helena Batista

January 2018

A adoção de técnicas de melhoramento de solos é prática cada vez mais recorrente em obras geotécnicas, contudo, os critérios de dosagem e parâmetros de previsão do comportamento desses solos parecem não acompanhar a evolução tecnológica das referidas técnicas. O parâmetro de estado para areias (ψ) não consegue representar o comportamento de areias artificialmente cimentadas, por levar em consideração apenas a influência do índice de vazios e do estado de tensões. Propõe-se, neste estudo, instituir o índice porosidade/teor volumétrico de cimento (η/Civ) como um parâmetro de estado para areias artificialmente cimentadas, por ser um critério racional que relaciona a porosidade da mistura compactada com o teor volumétrico de cimento adicionado. A partir da utilização desse parâmetro, é possível calibrar a quantidade de cimento e a energia de compactação utilizada, a fim de proporcionar uma mistura que atenda aos requisitos de projeto e que seja viável de executar em obra com os recursos materiais e financeiros disponíveis. O programa experimental compreendeu a realização de 17 ensaios triaxiais, drenados e não drenados, analisados em conjunto com resultados já obtidos em estudos anteriores. Análises do comportamento tensão-deformação, variação volumétrica-deformação axial, geração de poropressão, trajetórias de tensões drenadas e não drenadas, envoltórias de resistência, comportamento tensão-dilatância, da aplicação da teoria do estado crítico e uma breve análise estatística embasaram a comprovação de que o parâmetro η/Civ é adequado para previsão do comportamento de corpos de prova de areia artificialmente cimentados. / The adoption of soil improvement techniques is becoming more frequent in geotechnical works, however, the dosage criteria and the parameters used to predict the soil behavior do not seem to follow the technological evolution of these techniques. The state parameter for sands (ψ) cannot represent the behavior of artificially cemented sands because it considers only the influence of the void ratio and the stress state. It is proposed to establish the porosity/volumetric content of cement (η/Civ) as a state parameter for artificially cemented sands, since it is a rational criterion which relates the porosity of the compacted mixture to the volumetric content of cement added. By using this parameter, it is possible to calibrate the amount of cement and the compaction energy used in order to provide a mixture that meets the design requirements and that is feasible to perform on site construction with the material and financial resources available there. The experimental program included the realization of 17 triaxial testes, performed in the drained and undrained conditions, analyzed simultaneously with other results obtained from previous studies. Analysis of stress-strain behavior, volumetric variation-axial strain, pore pressure development, drained and non-drained stress paths, resistance envelope, stress-dilatation behavior, the application of the critical state theory, and a brief statistical analysis supported that the η/Civ parameter is suitable for predicting the behavior of artificially cemented sand specimens.

Solo-cimento

Solo : Melhoramento

Ensaios triaxiais

Porosidade

State parameter

Artificially cemented sands

Triaxial tests

Porosity

Cement content

O índice porosidade/teor volumétrico de cimento (η/Civ) como um parâmetro de estado para areias cimentadas

Leon, Helena Batista

January 2018

A adoção de técnicas de melhoramento de solos é prática cada vez mais recorrente em obras geotécnicas, contudo, os critérios de dosagem e parâmetros de previsão do comportamento desses solos parecem não acompanhar a evolução tecnológica das referidas técnicas. O parâmetro de estado para areias (ψ) não consegue representar o comportamento de areias artificialmente cimentadas, por levar em consideração apenas a influência do índice de vazios e do estado de tensões. Propõe-se, neste estudo, instituir o índice porosidade/teor volumétrico de cimento (η/Civ) como um parâmetro de estado para areias artificialmente cimentadas, por ser um critério racional que relaciona a porosidade da mistura compactada com o teor volumétrico de cimento adicionado. A partir da utilização desse parâmetro, é possível calibrar a quantidade de cimento e a energia de compactação utilizada, a fim de proporcionar uma mistura que atenda aos requisitos de projeto e que seja viável de executar em obra com os recursos materiais e financeiros disponíveis. O programa experimental compreendeu a realização de 17 ensaios triaxiais, drenados e não drenados, analisados em conjunto com resultados já obtidos em estudos anteriores. Análises do comportamento tensão-deformação, variação volumétrica-deformação axial, geração de poropressão, trajetórias de tensões drenadas e não drenadas, envoltórias de resistência, comportamento tensão-dilatância, da aplicação da teoria do estado crítico e uma breve análise estatística embasaram a comprovação de que o parâmetro η/Civ é adequado para previsão do comportamento de corpos de prova de areia artificialmente cimentados. / The adoption of soil improvement techniques is becoming more frequent in geotechnical works, however, the dosage criteria and the parameters used to predict the soil behavior do not seem to follow the technological evolution of these techniques. The state parameter for sands (ψ) cannot represent the behavior of artificially cemented sands because it considers only the influence of the void ratio and the stress state. It is proposed to establish the porosity/volumetric content of cement (η/Civ) as a state parameter for artificially cemented sands, since it is a rational criterion which relates the porosity of the compacted mixture to the volumetric content of cement added. By using this parameter, it is possible to calibrate the amount of cement and the compaction energy used in order to provide a mixture that meets the design requirements and that is feasible to perform on site construction with the material and financial resources available there. The experimental program included the realization of 17 triaxial testes, performed in the drained and undrained conditions, analyzed simultaneously with other results obtained from previous studies. Analysis of stress-strain behavior, volumetric variation-axial strain, pore pressure development, drained and non-drained stress paths, resistance envelope, stress-dilatation behavior, the application of the critical state theory, and a brief statistical analysis supported that the η/Civ parameter is suitable for predicting the behavior of artificially cemented sand specimens.

Solo-cimento

Solo : Melhoramento

Ensaios triaxiais

Porosidade

State parameter

Artificially cemented sands

Triaxial tests

Porosity

Cement content