The behavior of drilled shaft retaining walls in expansive clay soils

Brown, Andrew C.

06 September 2013

Drilled shaft retaining walls are common earth retaining structures, well suited to urban environments where noise, space, and damage to adjacent structures are major considerations. The design of drilled shaft retaining walls in non-expansive soils is well established. In expansive soils, however, there is no consensus on the correct way to account for the influence of soil expansion on wall behavior. Based on the range of design assumptions currently in practice, existing walls could be substantially over- or under-designed. The goal of this research is to advance the understanding of the effects of expansive clay on drilled shaft retaining walls. The main objectives of this study are to identify the processes responsible for wall loading and deformation in expansive clay, to evaluate how these processes change with time, and to provide guidance for design practice to account for these processes and ensure adequate wall performance. The primary source of information for this research is performance data from a four-year monitoring program at the Lymon C. Reese research wall, a full-scale instrumented drilled shaft retaining wall constructed through expansive clay in Manor, Texas. The test wall was instrumented with inclinometers and fiber optic strain gauges, and performance data was recorded during construction, excavation, during natural moisture fluctuations, and during controlled inundation tests that provided the retained soil with unlimited access to water. In addition to the test wall study, a field assessment of existing TxDOT drilled shaft retaining walls was conducted. The main process influencing short-term wall deformation was found to be global response to stress relief during excavation, which causes the wall and soil to move together without the development of large earth pressures or bending stresses. Long-term wall deformations were governed by the development of drained conditions in both the retained soil and the foundation soil after approximately eight months of controlled inundation testing. To ensure adequate wall performance, the deformations and structural loads associated with short- and long-term conditions should be combined and checked against allowable values. / text

Drilled shaft retaining walls

Expansive soil

Expansive clay

Stiff-fissured clay

Bored piles

Bored piers

Cantilever drilled shaft walls

Secant pile walls

Fully softened strengths

High plasticity clays

Field instrumentation

Performance monitoring

Thermal Integrity Profiling Instrumentation Development

Anderson, Byron Keith

01 January 2011

Abstract This thesis has shown that the development of the instrumentation necessary to provide in-situ thermal imaging for the determination of homogeneity of concrete is theoretically sound. Drilled shafts are large diameter underground cast-in-place columns that necessarily rely on sound integrity to properly withstand imposed loadings. As a by-product of the most common construction techniques, the entire process is often completely blind whereby the excavation and concreting processes are conducted beneath the surface of the water table (or slurry level). This results in an inability to inspect the final product and in many cases allows anomalous inclusions (soil cave-ins, slurry pockets, etc) to go undetected especially when they are formed outside the steel reinforcing cage. In an effort to gain verification of the as-built, below ground structure, numerous non-destructive test methods have been devised. Each of these methods have merits and drawbacks with regards to the full extent of the tested concrete volume. To further this cause, a new methodology was developed that uses the energy from hydrating concrete to assess the presence or absence of an intact concrete. Therein, the temperature generated by the curing concrete can be measured and correlated to the probable dimensions of the drilled shaft. This thesis outlines the development of the instrumentation capable of making in-situ temperature measurement of drilled shafts to assure the homogeneity of concrete is acceptable. To that end, several configurations of instrumentation approach were tested on varying scales from small lab specimens to full-size field constructed drilled shafts. The bulk of this work was conducted several years before the completion of the thesis and has the benefit of noting later developments. For instance, this study was used to seed future research and led to subsequent FDOT and WSDOT (Washington State DOT) funded research for the express purpose of identifying capabilities of thermal testing in those states. Likewise, present day practice and use of the approach has also been documented.

Concrete Temperature

Drilled Shaft Failure

Geotechnical Testing

Heat of Hydration

Infrared

Thermocouple

American Studies

Arts and Humanities

Civil Engineering

Reliability Based Design for Slope Stabilization Using Drilled Shafts and Anchors

Li, Lin

January 2014

No description available.

Civil Engineering

Engineering

Geotechnology

slope stability

Monte Carlo

drilled shaft

anchor

reliability

optimization design

deep foundation

landslide

multiple rows

Development of P-Y Criterion for Anisotropic Rock and Cohesive Intermediate Geomaterials

Shatnawi, Ehab Salem

26 August 2008

No description available.

Civil Engineering

Engineering

Geology

p-y

drilled shaft

lateral load

transversely isotropic

finite element

FEM

IGM

side shear resistance

initial tangnet

Capacidade de carga de sapatas, estacas de pequeno diâmetro e tubulões curtos em função do SPT: um estudo em solos residuais de Gnaisses para a região Sul de Minas / Bearing capacity and shaft resistance for shallow foundations, small diameters piles and short drilled piers, as function of SPT: a study for the residuals soils from gneis of the southern region of the Minas Gerais State at Brasil

Teixeira, Cornélio Zampier

01 August 1997

Esta Tese aborda, de modo original e pioneiro, importantes aspectos da Engenharia de Fundações do Sul de Minas: a) sistematização de conhecimentos sobre a Geologia regional; b) identificação e caracterização da prática de fundações; c) definição (com a formação de um banco de dados) dos perfis mais representativos do subsolo de suas principais cidades; d) estudo dos parâmetros físicos, químicos e geomecânicos de um solo típico; e) implantação de campo experimental de fundações da Universidade Federal de Lavras, com a realização de provas de carga. Grande ênfase foi dada aos itens (a), (c) e (e). Priorizou-se o estudo das fundações de baixa capacidade de carga, no estudo do comportamento carga-recalque de ensaios de placa, de provas de carga a compressão em estacas-broca isoladas e de tubulões curtos instrumentados. Destacam-se as análises sobre os efeitos de forma, profundidade, melhoramento do terreno de fundação e de inundação nas fundações rasas e da variação L/d na resistência lateral unitária das estacas, sendo valorizadas as fórmulas empíricas com base no SPT. São apresentadas fórmulas de previsão de carga, em função do SPT, para sapatas, estacas de pequeno diâmetro e tubulões curtos e um estudo de custos, onde se mostra que a opção indiscriminada por tubulões é inadequada para certas faixas de carga de trabalho. Adicionalmente, são feitas recomendações para intensificar o uso de sondagens tendo em vista a grande variabilidade das propriedades dos solos regionais e para aumentar os fatores de segurança nestas fórmulas onde houver possibilidade de ocorrência de colapso no solo. / This work presents, at time, important aspects of Foundation Engineering at Southern Region of Minas Gerais State: a) systematization of the knowledge about regional geology; b) identification and characterization of practice in foundations; c) definition (though establishment of a data base) of most representative sub-soil profiles at main cities at the region; d) study of physical, chemical and geomechanical parameters of a typical soil; e) implementation of a experimental field for foundation studies at Federal University of Lavras, by execution of load tests. A large emphasis was given to items a, c and e. The study of foundations of low load capacity was prioritized when testing plates, isolated piles under compression and short drilled piers with sensors. Analysis such as form effects, depth, soil improvement and flooding on shallow foundations and variation of L/d on the lateral unity resistance by emphasizing the empiral equations based on SPT were all pointed out. Mathematical equations are presented for load estimation as function of SPT for small diameter piles and short drilled piers as well as a cost study where it can bem shown that the undistinguished alternative for piers is inadequate for some load values. In addition, due to soil spatial variability and safety factor increment on soils subject for colapse, recommendations on intensive use of SPT test are given.

Drilled shaft piles

Estaca-broca

Geologia residual

Geotechnical parameters

Instrumented short piers

Parâmetros geotécnicos

Prova de carga rápida

QML load proofs

Regional geology

Residual soil from gneiss

Solos residuais de Gnaisse

Tubulões curtos instrumentados

Advancements in rapid load test data regression

Stokes, Michael Jeffrey

01 June 2006

Rate-dependent effects introduced during rapid and/or dynamic events have typically been oversimplified to compensate for deficiencies in present analyses. As load test results are generally considered as the basis of performance from which foundations can be designed, it is imperative that the analyzed load test data be as accurate as possible. In an attempt to progress the state of load test data regression, this dissertation addresses two common assumptions made during the regression process: (1) the statnamic damping coefficient is constant throughout the entire load test and (2) the concrete stress-strain relationship is linear-elastic. Also presented is a case study where the inherent features of a rapid load test proved useful in identifying the occurrence and proximity of a structural failure within a drilled shaft.

Statnamic

Pile load test

Drilled shaft

Strain rate

Load rate

Concrete modulus

Concrete model

Hysteretic

Structural failure

Integrity testing

Cohesionless soils

Damping

Soil-pile interactions

Unloading Point Method (UPM)

American Studies

Arts and Humanities

Capacidade de carga de sapatas, estacas de pequeno diâmetro e tubulões curtos em função do SPT: um estudo em solos residuais de Gnaisses para a região Sul de Minas / Bearing capacity and shaft resistance for shallow foundations, small diameters piles and short drilled piers, as function of SPT: a study for the residuals soils from gneis of the southern region of the Minas Gerais State at Brasil

Cornélio Zampier Teixeira

01 August 1997

Esta Tese aborda, de modo original e pioneiro, importantes aspectos da Engenharia de Fundações do Sul de Minas: a) sistematização de conhecimentos sobre a Geologia regional; b) identificação e caracterização da prática de fundações; c) definição (com a formação de um banco de dados) dos perfis mais representativos do subsolo de suas principais cidades; d) estudo dos parâmetros físicos, químicos e geomecânicos de um solo típico; e) implantação de campo experimental de fundações da Universidade Federal de Lavras, com a realização de provas de carga. Grande ênfase foi dada aos itens (a), (c) e (e). Priorizou-se o estudo das fundações de baixa capacidade de carga, no estudo do comportamento carga-recalque de ensaios de placa, de provas de carga a compressão em estacas-broca isoladas e de tubulões curtos instrumentados. Destacam-se as análises sobre os efeitos de forma, profundidade, melhoramento do terreno de fundação e de inundação nas fundações rasas e da variação L/d na resistência lateral unitária das estacas, sendo valorizadas as fórmulas empíricas com base no SPT. São apresentadas fórmulas de previsão de carga, em função do SPT, para sapatas, estacas de pequeno diâmetro e tubulões curtos e um estudo de custos, onde se mostra que a opção indiscriminada por tubulões é inadequada para certas faixas de carga de trabalho. Adicionalmente, são feitas recomendações para intensificar o uso de sondagens tendo em vista a grande variabilidade das propriedades dos solos regionais e para aumentar os fatores de segurança nestas fórmulas onde houver possibilidade de ocorrência de colapso no solo. / This work presents, at time, important aspects of Foundation Engineering at Southern Region of Minas Gerais State: a) systematization of the knowledge about regional geology; b) identification and characterization of practice in foundations; c) definition (though establishment of a data base) of most representative sub-soil profiles at main cities at the region; d) study of physical, chemical and geomechanical parameters of a typical soil; e) implementation of a experimental field for foundation studies at Federal University of Lavras, by execution of load tests. A large emphasis was given to items a, c and e. The study of foundations of low load capacity was prioritized when testing plates, isolated piles under compression and short drilled piers with sensors. Analysis such as form effects, depth, soil improvement and flooding on shallow foundations and variation of L/d on the lateral unity resistance by emphasizing the empiral equations based on SPT were all pointed out. Mathematical equations are presented for load estimation as function of SPT for small diameter piles and short drilled piers as well as a cost study where it can bem shown that the undistinguished alternative for piers is inadequate for some load values. In addition, due to soil spatial variability and safety factor increment on soils subject for colapse, recommendations on intensive use of SPT test are given.

Estaca-broca

Geologia residual

Parâmetros geotécnicos

Prova de carga rápida

Solos residuais de Gnaisse

Tubulões curtos instrumentados

Drilled shaft piles

Geotechnical parameters

Instrumented short piers

QML load proofs

Regional geology

Residual soil from gneiss