Route 2 rigid pavement instrumentation project: Installation and testing of selected instruments and data analysis for slabs 3, 4, 6, 7, & 9

Copley, Joel R.

January 1994

No description available.

Engineering, Civil

testing

instruments

Data analysis

slabs

Route 2 rigid pavement instrumentation project: Installation of instruments, testing, and data analysis of slabs 1, 2, 5, and 8

George, Michael Edward

January 1994

No description available.

Engineering, Civil

Slabs 1, 2, 5, and 8

Utilization of Instrument Response of SuperPaveTM Mixes at the Virginia Smart Road to Calibrate Laboratory Developed Fatigue Equations

Nassar, Walid Mohammed

25 July 2001

In the current mechanistic-empirical (M-E) design procedures for flexible pavements, the primary transfer functions are those that relate (a) maximum tensile strain in the hot-mix asphalt (HMA) surface layer to fatigue cracking and (b) compressive strain at the top of the subgrade layer to rutting at the surface. These functions, called fatigue and rutting equations, are usually derived from statistically based correlations of pavement condition with observed laboratory specimen performance, full-scale road test experiments or by both methods. Hot-mix asphalt fatigue behavior is an important component of a M-E design procedure; unfortunately, most of the existing models do not reflect field fatigue behavior. This is manifested in the fact that HMA fatigue failure is achieved much faster under a laboratory setting than in a field environment. This difference has been typically accounted for by the use of a single shift factor based mainly on engineering experience. The flexible pavement portion of the Virginia Smart Road includes 12 different flexible pavement designs. Each section is approximately 100m long. The sections are instrumented with pressure cells, strain gages, time-domain reflectometry probes, thermocouples, and frost probes. The instruments were embedded as layers were built. Laboratory fatigue tests of field cores and field-mixed laboratory-compacted specimens along with measured response from the instrumented pavement sections at the Virginia Smart Road were used to quantify the differences between laboratory and field environments. Four shift factors were identified to correlate field and lab fatigue behavior: stress-state, material difference, traffic wander, and healing. Field-measured critical strains and strain energy exerted during truck loading were both used to determine the stress state shift factor. Strain measurements of truck loading distribution (wander) were used to determine the wander shift factor. Finally, results from laboratory fatigue tests on cores and laboratory compacted specimens were used to evaluated a shift factor to account for the difference in compaction procedures. While the derived shift factors utilize the measured stresses and strains at the Virginia Smart Road, calculated strains and stresses, based on appropriate pavement and loading modeling, may also be used. / Ph. D.

Resilient Modulus

Pavement Instrumentation

Pavement Stress and Strain

Fatigue

Hot Mix Asphalt

Estudo do comportamento de pavimentos de concreto simples em condições de aderência entre placa de concreto e base cimentada ou asfáltica. / Study of concrete pavement behavior in bonding condition between concrete slab and cemented or asphalt base.

Pereira, Deividi da Silva

31 July 2003

Motivado pela alteração do sistema construtivo de pavimentos de concreto de cimento Portland, na qual foi abolida a utilização da manta plástica entre placas e bases cimentadas, com conseqüente emprego de imprimação da base com emulsão asfáltica, este trabalho buscou responder algumas indagações surgidas durante este processo. Em laboratório, através de uma metodologia de ensaio especialmente adaptada para o estudo da resistência ao cisalhamento entre concreto de cimento Portland (CCP) e concreto compactado com rolo (CCR), inferiu-se, para diferentes tratamentos de interface, elevados níveis de resistência ao cisalhamento em interfaces sem emulsão asfáltica que potencializam o emprego de estruturas monolíticas de pavimentos. Quanto àquelas que continham material asfáltico, foram obtidos resultados muito inferiores aos anteriores, com caracterização de ruptura dúctil, por efeito de fluência do material betuminoso. Duas pistas experimentais instrumentadas, uma em whitetopping ultradelgado e outra em pavimento simples de concreto executado segundo a nova prática construtiva, capazes de mensurar as deformações específicas do CCP durante a execução de provas de carga dinâmica, associadas às modelagens por elementos finitos (MEF), realizadas com auxílio do programa ISLAB2000, propiciaram importantes inferências sobre o comportamento mecânico destes dois tipos de pavimentos de concreto. Verificou-se o trabalho mecânico composto (monolítico) das estruturas de whitetopping ultradelgado, com boas correlações entre as tensões medidas e numericamente calculadas; e entre os rebaixamentos da linha neutra (LN) determinados analítica, numérica e experimentalmente. No tocante ao pavimento simples de concreto sobreposto à base cimentada imprimada, apesar das ótimas correlações entre tensões medidas e determinadas numericamente, não se pode obter conclusões definitivas a despeito do trabalho mecânico desta estrutura, apesar da existência de indícios de comportamento não-monolítico. / This thesis intended to answer some inquiries, which arose during the alteration of the concrete pavement constructive process. This process substituted the plastic blanket by the asphalt emulsion, between the concrete slabs and the cemented bases. A laboratorial test methodology, specially adapted for the study of shear strength between the Portland cement concrete and the rolled concrete, inferred, for different types of interlayer treatments, high levels of shear strength, at the interfaces without asphalt emulsion. These shear strength levels enable the monolithic behavior of the pavement structure. When the asphalt emulsion was presented at the interlayer, the shear strength was much smaller than the former, with ductile rupture due to creep of the bituminous material. Two instrumented road tests, the first section in ultra-thin whitetopping pavement and de second one, in jointed plain concrete pavement (built according to new constructive process), and the finite element analyses led to important conclusions about the mechanical behavior of these pavement structures. This was possible because the strain-gages measured the specific concrete deformations during the dynamic load tests. The monolithic behavior of the ultra-thin whitetopping pavement was verified. There were good correlations between the measured stresses and theoretical stresses, which were calculated by the finite element method; and between the neutral axle displacements, estimated by analytical, numerical and experimental methods. With regard to the jointed plain concrete pavement, which was built over the cemented base (covered by the asphalt emulsion), great correlations between measured and simulated stresses were found, as well as it was found for ultra-thin whitetopping. However, it was not possible to conclude, definitively, concerning the mechanical behavior of this pavement structure, although there are clues that ndicated a non-monolithic behavior, that is, concrete slabs are unbounded up with the cemented base.

composite pavement

concrete pavement

instrumentação de pavimentos

mecânica de pavimento

pavement instrumentation

pavimento composto

pavimento de concreto

resistência ao cisalhamento

shear strength

whitetopping

whitetopping

Estudo do comportamento de pavimentos de concreto simples em condições de aderência entre placa de concreto e base cimentada ou asfáltica. / Study of concrete pavement behavior in bonding condition between concrete slab and cemented or asphalt base.

Deividi da Silva Pereira

31 July 2003

Motivado pela alteração do sistema construtivo de pavimentos de concreto de cimento Portland, na qual foi abolida a utilização da manta plástica entre placas e bases cimentadas, com conseqüente emprego de imprimação da base com emulsão asfáltica, este trabalho buscou responder algumas indagações surgidas durante este processo. Em laboratório, através de uma metodologia de ensaio especialmente adaptada para o estudo da resistência ao cisalhamento entre concreto de cimento Portland (CCP) e concreto compactado com rolo (CCR), inferiu-se, para diferentes tratamentos de interface, elevados níveis de resistência ao cisalhamento em interfaces sem emulsão asfáltica que potencializam o emprego de estruturas monolíticas de pavimentos. Quanto àquelas que continham material asfáltico, foram obtidos resultados muito inferiores aos anteriores, com caracterização de ruptura dúctil, por efeito de fluência do material betuminoso. Duas pistas experimentais instrumentadas, uma em whitetopping ultradelgado e outra em pavimento simples de concreto executado segundo a nova prática construtiva, capazes de mensurar as deformações específicas do CCP durante a execução de provas de carga dinâmica, associadas às modelagens por elementos finitos (MEF), realizadas com auxílio do programa ISLAB2000, propiciaram importantes inferências sobre o comportamento mecânico destes dois tipos de pavimentos de concreto. Verificou-se o trabalho mecânico composto (monolítico) das estruturas de whitetopping ultradelgado, com boas correlações entre as tensões medidas e numericamente calculadas; e entre os rebaixamentos da linha neutra (LN) determinados analítica, numérica e experimentalmente. No tocante ao pavimento simples de concreto sobreposto à base cimentada imprimada, apesar das ótimas correlações entre tensões medidas e determinadas numericamente, não se pode obter conclusões definitivas a despeito do trabalho mecânico desta estrutura, apesar da existência de indícios de comportamento não-monolítico. / This thesis intended to answer some inquiries, which arose during the alteration of the concrete pavement constructive process. This process substituted the plastic blanket by the asphalt emulsion, between the concrete slabs and the cemented bases. A laboratorial test methodology, specially adapted for the study of shear strength between the Portland cement concrete and the rolled concrete, inferred, for different types of interlayer treatments, high levels of shear strength, at the interfaces without asphalt emulsion. These shear strength levels enable the monolithic behavior of the pavement structure. When the asphalt emulsion was presented at the interlayer, the shear strength was much smaller than the former, with ductile rupture due to creep of the bituminous material. Two instrumented road tests, the first section in ultra-thin whitetopping pavement and de second one, in jointed plain concrete pavement (built according to new constructive process), and the finite element analyses led to important conclusions about the mechanical behavior of these pavement structures. This was possible because the strain-gages measured the specific concrete deformations during the dynamic load tests. The monolithic behavior of the ultra-thin whitetopping pavement was verified. There were good correlations between the measured stresses and theoretical stresses, which were calculated by the finite element method; and between the neutral axle displacements, estimated by analytical, numerical and experimental methods. With regard to the jointed plain concrete pavement, which was built over the cemented base (covered by the asphalt emulsion), great correlations between measured and simulated stresses were found, as well as it was found for ultra-thin whitetopping. However, it was not possible to conclude, definitively, concerning the mechanical behavior of this pavement structure, although there are clues that ndicated a non-monolithic behavior, that is, concrete slabs are unbounded up with the cemented base.

instrumentação de pavimentos

mecânica de pavimento

pavimento composto

pavimento de concreto

resistência ao cisalhamento

whitetopping

composite pavement

concrete pavement

pavement instrumentation

shear strength

whitetopping

Moisture Influence on Structural Behaviour of Pavements : Field and Laboratory Investigations

Salour, Farhad

January 2015

The structural behaviour of pavements in cold regions can considerably be affected by seasonal variation in environmental factors such as temperature and moisture content. Along with the destructive effect of heavy traffic loads, climatic and environmental factors can considerably contribute to pavement deterioration. These factors can influence the structural and functional capacity of the pavement structures which, as a result, can trigger and accelerate pavement deterioration mechanisms. Studies on the influence of variation of the environmental factors on the response and behaviour of pavement materials have shown that proper consideration to these factors must be given in realistic pavement design and analysis. In flexible pavement structures, particularly with a thin hot mix asphalt (HMA) layer, unbound materials and subgrade soil largely contribute to the overall structural behaviour of the pavement system. In unbound materials, moisture content and its variation can significantly affect pavement layer stiffness and permanent deformation characteristics. Therefore, the moisture condition of pavements and its influence on the mechanical behaviour of pavement materials has been of interest among the pavement research community. A proper understanding of moisture transformation in pavement systems and its effects on pavement performance are important for mechanistic pavement design. The present summary of this doctoral thesis is based on four main parts. The first part of the thesis covers field measurements and findings from a test section along county road 126 in southern Sweden and consists of two journal papers (paper I and II) tackling different aspects of the research topic. This test section is located in a relatively wet ground condition and consists of a thin flexible pavement structure with a deep drainage system. It is instrumented with subsurface temperature, volumetric moisture content and groundwater probes. The mechanical response of the pavement structure was investigated using Falling Weight Deflectometer (FWD) measurements. The second part of the thesis (paper III and IV) are based on laboratory experiments and investigates different recent approaches that have been proposed to apply principles of unsaturated soil mechanics for incorporating seasonal variation of moisture content into the resilient modulus models using matric suction. The third part of the thesis (paper V) builds a bridge that spans between the laboratory and field investigations with an attempt to evaluate one of the predictive models presented in Paper III. The fourth part of the thesis (paper VI) mainly focuses on the laboratory-based investigation of the permanent deformation characteristic of subgrade soils. In this part, the permanent deformation characteristics of two different silty sand subgrade soils were investigated and modelled using the data obtained from repeated load traxial tests. Paper I mainly focuses on the spring-thaw weakening of the pavement structure. The environmental data collected using different sensors and the FWD tests were used to investigate variations in moisture content with thaw penetration and its influence on the stiffness of unbound layers and the pavement’s overall bearing capacity. Using the backcalculated layer stiffness and corresponding in situ moisture measurements in the unbound layers, a degree of saturation-based moisture-stiffness model was developed for the granular material and the subgrade. In Paper II, the drainage system of the structure was manually clogged during a three month period in summer to raise the groundwater level and increase the moisture content of the layers. Along with the subsurface groundwater level and moisture content monitoring, the structural response of the pavement was studied. In this research work, the FWD tests were conducted at three different load levels. The stress dependent behaviour of the unbound granular layer and the subgrade soil were further studied using the multilevel loads FWD test data. Additionally, parameters of a nonlinear stress-dependent stiffness model were backcalculated and their sensitivity to in situ moisture content was studied. In Paper III and IV, series of suction-controlled repeated load triaxial (RLT) tests were conducted on two silty sand (SM) subgrade materials. Several resilient modulus prediction models that account for seasonal moisture content variation through matric suction were summarized and after optimizing the model parameters, the capability of the prediction models in capturing the material response were evaluated. In Paper V, an attempt was made to evaluate the proficiency of one of the suction-resilient modulus models using the field moisture content and FWD measurements from the Torpsbruk test site. The backcalculated subgrade stiffness dataset at different moisture contents were compared with resilient modulus models obtained from the suction-resilient modulus predictive model. Paper VI presents an evaluation of several permanent deformation models for unbound pavement materials that incorporate the time-hardening concept using a series of multistage repeated load triaxial (RLT) tests conducted on silty sand subgrade materials. The permanent deformation tests were conducted at four different moisture contents with pore suctions measurement throughout the test. The effect of moisture content (matric suction) on the permanent deformation characteristics of the materials and the predictive model parameters were further investigated. / <p>QC 20150324</p>

Falling Weight Deflectometer (FWD)

backcalculation

unbound material

subgrade

seasonal variation

moisture content

spring-thaw

drainage

pavement stiffness

field test

pavement instrumentation

resilient modulus

permanent deformation

repeated load triaxial test

unsaturated soil

matric suction.

Comportement thermo-mécanique de structures de chaussées bitumineuses / Thermomechanical behaviour of bituminous pavement structures

Gaborit, Philippe

19 June 2015

Cette thèse CIFRE a été réalisée dans le cadre d'un partenariat entre l'ENTPE Université de Lyon, AREA et EIFFAGE Travaux Publics. Les méthodes actuelles de détermination et de prévision de l'endommagement des structures de chaussées autoroutières sont peu fiables et nécessitent d'être améliorées. L'objectif de la thèse est de mettre en place une procédure d'analyse inverse donnant accès aux paramètres de comportement des matériaux de chacune des couches de chaussées à partir des mesures de déflexion. Une première étape vise à définir plus précisément les états de contraintes et de déformations existants dans les différentes couches de chaussées. Pour cela, une instrumentation de chaussée autoroutière située proche d'Aix les Bains a été réalisée. 47 capteurs de déformation et de température ont été implantés dans la structure à trois niveaux différents lors de travaux d'entretien effectués en août 2012. En parallèle, des matériaux de chaussée ont été prélevés sur autoroutes pour caractériser leur comportement en laboratoire. Des essais de module complexe ont permis de déterminer les propriétés thermo-visco-élastiques des matériaux. Ces résultats ont permis de modéliser la déformation de la chaussée et de la comparer avec les mesures. Des mesures de déflexion ont également été réalisées sur la chaussée instrumentée à l'aide d'un curviamètre. Les résultats ont pu être comparés à la modélisation. Les différences observées ont permis de proposer une analyse critique des mesures de déflexion. / This thesis was conducted into a parnership between ENTPE university of Lyon, AREA and Eiffage Travaux Publics. Current methods of determination and prediction of damage to highway pavement structures are unreliable and need to be improved. The aim of the thesis is to establish an back analysis procedure from the deflection measurements fiving access to material behavior parameters of each pavement layers. A first step is to define more precisely the states of stress and deformation existing in the different layers of pavement. For this reason, a motorway pavement instrumentation was performed near Aix les Bains in France. 47 strain sensors and temperature were implanted into the structure in three layers during maintenance works in August 2012.In parallel, pavement materials were collected on motorways to characterize their behavior. Complex modulus tests were used to determine the thermo-viscoelalstic properties of materials. These results were used to modeling the deformation of the pavement and compared with measurements. Deflection measurements were also performed on the instrumented pavement with a curviameter device. The reseults were compared to modeling. The observed differences have helped to provide a critical analysis of deflection measurements.

Chaussées bitumineuses épaisses

Comportement des matériaux

Instrumentation de chaussée

Essais de laboratoire

Essais in situ

Modélisation viscoélastique

Caractérisation thermo-mécanique

Auscultation de chausée

Thick asphalt pavements

Materials behaviour

Pavement instrumentation

Laboratory tests

In situ tests

Viscoelastic modelling

Thermo-mechanical characterization

Pavment auscultation