Avaliação de misturas asfálticas recicladas a quente com diferentes teores de material fresado. / Evaluation of hot recycled asphalt mixes with different RAP contents.

Suzuki, Karina Yuriko

24 May 2019

Esta dissertação contempla um estudo da avaliação do efeito de diferentes teores de material fresado, conhecido como RAP (do inglês, Reclaimed Asphalt Pavement), na dosagem e no comportamento mecânico de misturas asfálticas recicladas a quente, para aplicação em camadas de revestimento de pavimento. Em uma primeira etapa, foram avaliadas, em laboratório, misturas com a incorporação de 0, 10, 20, 25, 35, 50 e 65% de material fresado, sem adição de agente rejuvenescedor (AR). Na segunda etapa, foi avaliado o comportamento das misturas com 25 e 50% de RAP, após adição de um AR de base vegetal. As misturas foram dosadas de acordo com o método Marshall e, em seguida, foram realizados os seguintes ensaios: resistência à tração por compressão diametral (RT), dano por umidade induzida (DUI), módulo de resiliência (MR), módulo dinâmico (MD), uniaxial de carga repetida para determinação do flow number e fadiga na flexão de quatro pontos. Embora o teor de ligante virgem adicionado tenha sido maior que o calculado (assumindo-se que todo o ligante asfáltico remanescente no RAP seria ativado e estaria disponível para se misturar com o ligante novo), foi possível obter uma significativa redução no consumo de ligante virgem. Em relação à RT e ao DUI, todas as misturas atenderam aos parâmetros estabelecidos nas especificações do Departamento Nacional de Infraestrutura de Transportes (DNIT) e do Departamento de Estradas de Rodagem do estado de São Paulo (DER/SP). Observou-se um aumento dos módulos de resiliência (a 25°C) para as misturas com altos teores de RAP, assim como um aumento dos módulos dinâmicos nas zonas de baixas frequências (ou elevadas temperaturas), indicando boa resistência à deformação permanente, o que foi corroborado pelos resultados de flow number. Além disso, verificou-se que, com relação à vida de fadiga, é possível produzir misturas com altos teores de RAP com propriedades similares a uma mistura convencional, ou até melhor, uma vez adicionado o agente rejuvenescedor. Adicionalmente, foram construídos três trechos experimentais, com 25% (sem AR), 25% (com AR) e 35% (com AR) de RAP na camada final de rolamento da Rodovia dos Bandeirantes (SP-348). Até o momento de conclusão desta pesquisa, observou-se um bom desempenho das misturas recicladas aplicadas. Por fim, o estudo mostrou que, não apenas o teor, mas sobretudo as características do material reciclado (tipo e propriedade do ligante envelhecido; granulometria e massas específicas do RAP), influenciam diretamente na dosagem e no comportamento mecânico das misturas. O uso de RAP com diferentes teores, de forma tecnicamente consciente, em camadas de revestimentos de pavimento é promissor em um futuro que busca cada vez mais a sustentabilidade das construções. / The aim of this study is to evaluate the effect of different RAP (Reclaimed Asphalt Pavement) contents on the design and mechanical behavior of hot recycled asphalt mixtures for application in wearing courses of pavements. In a first step, mixes with the incorporation of 0, 10, 20, 25, 35, 50 and 65% of RAP were evaluated in the laboratory without the addition of rejuvenating agent (RA). In the second step, the behavior of the mixtures with 25 and 50% of RAP was evaluated after the addition of an engineered bio-based rejuvenator. The mixtures were designed according to the Marshall method and then, the tests of indirect tensile strength (ITS), moisture susceptibility, resilient modulus, dynamic modulus, repeated uniaxial test to determine the flow number and four-point bending fatigue test were performed. Although the added virgin binder content was higher than that calculated (assuming that all the RAP binder would be active and available to blend with the neat binder), a significant reduction in the virgin binder consumption was achieved. Regarding the ITS and the moisture susceptibility results, all mixes met the requirements set by the National Department of Transportation Infrastructure (DNIT) and São Paulo DOT (DER/SP). An increase of the resilient modulus (at 25°C) was observed for high RAP mixes, as well as an increase of the dynamic modulus in low frequencies (or high temperatures) zones, indicating a good resistance to permanent deformation that was further confirmed by the flow number results. In addition, it has been found that, regarding the fatigue life, it is possible to produce high RAP mixes with similar or even better properties than a conventional mix, once the rejuvenating agent is added. Additionally, three trial sections were constructed, with 25% (without RA), 25% (with RA) and 35% (with RA) of RAP in the wearing course layer of the Bandeirantes Highway (SP-348). Until the end of this research, a good performance of the applied recycled mixtures was observed. Finally, the study showed that not only the RAP content, but also the properties of the recycled material (type and properties of the aged binder, aggregate particle size and RAP specific densities) directly influence the design and the mechanical behavior of the mixes. The use of different RAP contents in wearing courses, when technically sound, is a promising technique in the future that increasingly seeks for sustainable constructions.

Asphalt paving

Hot recycling

Material asfáltico fresado

Pavement

Pavimentação

Pavimentação asfáltica

Reciclagem a quente

Reclaimed Asphalt Pavement (RAP)

Sustainability

Sustentabilidade

Improvement to Highway Safety through Network Level Friction Testing and Cost Effective Pavement Maintenance

Abd El Halim, Amir, Omar

January 2010

Pavements encompass a significant component of the total civil infrastructure investment. In Ontario, the Ministry of Transportation (MTO) is responsible for the maintenance and construction of approximately 39,000 lane-kilometres of highway. In 2004, the province estimated the value of the total highway system at $39 billion dollars. Thus, managing this asset is an important factor to ensure a high level of service to the traveling public. One of the most important indicators of level of service for a road network is safety. Each year, thousands of motorists across North America are involved in motor vehicle collisions, which result in property damage, congestion, delays, injuries and fatalities. The MTO estimated that in 2002, vehicle collisions in Ontario cost nearly $11 billion. Despite the importance of highway safety, it is usually not considered explicitly in the pavement management framework or maintenance analysis. A number of agencies across North America collect skid data to assess the level of safety at both the project and network level (Li et al, 2004). However, a number of transportation agencies still do not collect friction data as part of their regular pavement data collection programs. This is related to both liability concerns and lack of knowledge for how this data can be effectively used to improve safety. The transportation industry generally relies on information such as collision rates, black-spot locations and radius of curvature to evaluate the level of safety of an alignment (Lamm et al., 1999). These are important factors, but the use of complementary skid data in an organized proactive manner would also be beneficial. In preparation for a considered Long Term Area Maintenance Contract, a project was initiated by the MTO to collect network level friction data across three regions in the Province of Ontario. This project represents the first time friction data was collected at the network level in Ontario. In 2006, approximately 1,800 km of the MTO highway network was surveyed as a part of this study. This research utilized the network level skid data along with collision data to examine the relationships and model the impacts of skid resistance on the level of safety. Despite the value of collecting network level skid data, many Canadian transportation agencies still do not collect network level skid data due to the costs and potential liability associated with the collected data. The safety of highway networks are usually assessed using various levels of service indicators such as Wet-to-Dry accident ratio (W/D), surface friction (SN), or the collision rate (CR). This research focused on developing a framework for assessing the level of safety of a highway network in terms of the risk of collision based on pavement surface friction. The developed safety framework can be used by transportation agencies (federal, state, provincial, municipal, etc.) or the private sector to evaluate the safety of their highway networks and to determine the risk or probability of a collision occurring given the level of friction along the pavement section of interest. As a part of the analysis, a number of factors such as Region, Season of the Year, Environmental Conditions, Road Surface Condition, Collision Severity, Visibility and Roadway Location were all investigated. Statistical analysis and modeling were performed to developed relationships which could relate the total number of collisions or the collision rate (CR) to the level of available pavement friction on a highway section. These models were developed using over 1,200 collisions and skid test results from two Regions in the Province of Ontario. Another component of this study examined the Wet-to-Dry accident ratio and compared it to the Skid Number. A number of Transportation Agencies rely on the Wet-to-Dry accident ratio to identify potential locations with poor skid resistance. The results of the comparison further demonstrated the need and importance of collecting network level skid data. Another component of this study was to evaluate the effectiveness of various preservation treatments used within the Long Term Pavement Performance (LTPP) study. In addition, modeling was performed which examined the historical friction trends over time within various environment zones across North America to investigate skid resistance deterioration trends. The results of the analysis demonstrated that commonly used preservation treatments can increase skid resistance and improve safety. The cost effectiveness of implementing preservation and maintenance to increase the level of safety of a highway using Life Cycle Cost Analysis (LCCA) was evaluated. A Decision Making Framework was developed which included the formulation of a Decision Matrix that can be used to assist in selecting a preservation treatment for a given condition. The results of this analysis demonstrate the savings generated by reducing the number of collisions as a result of increasing skid resistance. The results of this research study have demonstrated the importance of network level friction testing and the impact of skid resistance on the level of safety of a highway. A review of the literature did not reveal any protocol or procedures for sampling or minimum test interval requirements for network level skid testing using a locked-wheel tester. Network level friction testing can be characterized as expensive and time-consuming due to the complexity of the test. As a result, any reduction in the required number of test points is a benefit to the transportation agency, private sector (consultants and contractors) and most importantly, the public. An analysis approach was developed and tested that can be used to minimize the number of required test locations along a highway segment using common statistical techniques.

Civil Engineering

Dangų degradacijos modeliai ir jų taikymas Lietuvos automobilių keliams / Models Of Pavement Deterioration And Their Adaptation To Lithuanian Automobile Roads

Braga, Aivaras

27 September 2005

Planning road maintenance and development activities, prioritizing road construction, reconstruction and rehabilitation works, performing project economic evaluations, forecasting road operation expenditures and road user effect always requires prediction of pavement behaviour. For this purpose models of pavement deterioration are used. Commonly they are integrated in more sophisticated computational systems, known as Pavement Management systems (PMS) and Highway Development and Management systems (HDM). The implementation of these systems started in Lithuania shortly after the Re-establishment of the Independence. This was triggered by the violent drop in financing of the road sector, forcing to change obsolete road management strategy and planning approach. The need for project economic evaluations, transport modelling and long term pavement performance forecasts grew up after Lithuania joined the European Union and this brought the opportunity for financing road infrastructure projects from the EU funds. At present only on the Lithuanian state road network the total value of implemented projects, justified by evaluations and modelling with PMS, amounts to about 500 million Litas annually. Any Pavement Management System is just as good as the models within it, used for pavement deterioration prediction. The performed test calculations show that prediction models, currently used for this purpose in PMS we have in Lithuania, are of doubtful accuracy and have to be improved... [to full text]

Civil Enginering

Dangų valdymo sistemos

Kalibravimas

Asfaltbetonio dangos degradacija

HDM

DAVASEMA

Calibration

Asphalt pavement deterioration models

Pavement management systems

Improvement to Highway Safety through Network Level Friction Testing and Cost Effective Pavement Maintenance

Abd El Halim, Amir, Omar

January 2010

Pavements encompass a significant component of the total civil infrastructure investment. In Ontario, the Ministry of Transportation (MTO) is responsible for the maintenance and construction of approximately 39,000 lane-kilometres of highway. In 2004, the province estimated the value of the total highway system at $39 billion dollars. Thus, managing this asset is an important factor to ensure a high level of service to the traveling public. One of the most important indicators of level of service for a road network is safety. Each year, thousands of motorists across North America are involved in motor vehicle collisions, which result in property damage, congestion, delays, injuries and fatalities. The MTO estimated that in 2002, vehicle collisions in Ontario cost nearly $11 billion. Despite the importance of highway safety, it is usually not considered explicitly in the pavement management framework or maintenance analysis. A number of agencies across North America collect skid data to assess the level of safety at both the project and network level (Li et al, 2004). However, a number of transportation agencies still do not collect friction data as part of their regular pavement data collection programs. This is related to both liability concerns and lack of knowledge for how this data can be effectively used to improve safety. The transportation industry generally relies on information such as collision rates, black-spot locations and radius of curvature to evaluate the level of safety of an alignment (Lamm et al., 1999). These are important factors, but the use of complementary skid data in an organized proactive manner would also be beneficial. In preparation for a considered Long Term Area Maintenance Contract, a project was initiated by the MTO to collect network level friction data across three regions in the Province of Ontario. This project represents the first time friction data was collected at the network level in Ontario. In 2006, approximately 1,800 km of the MTO highway network was surveyed as a part of this study. This research utilized the network level skid data along with collision data to examine the relationships and model the impacts of skid resistance on the level of safety. Despite the value of collecting network level skid data, many Canadian transportation agencies still do not collect network level skid data due to the costs and potential liability associated with the collected data. The safety of highway networks are usually assessed using various levels of service indicators such as Wet-to-Dry accident ratio (W/D), surface friction (SN), or the collision rate (CR). This research focused on developing a framework for assessing the level of safety of a highway network in terms of the risk of collision based on pavement surface friction. The developed safety framework can be used by transportation agencies (federal, state, provincial, municipal, etc.) or the private sector to evaluate the safety of their highway networks and to determine the risk or probability of a collision occurring given the level of friction along the pavement section of interest. As a part of the analysis, a number of factors such as Region, Season of the Year, Environmental Conditions, Road Surface Condition, Collision Severity, Visibility and Roadway Location were all investigated. Statistical analysis and modeling were performed to developed relationships which could relate the total number of collisions or the collision rate (CR) to the level of available pavement friction on a highway section. These models were developed using over 1,200 collisions and skid test results from two Regions in the Province of Ontario. Another component of this study examined the Wet-to-Dry accident ratio and compared it to the Skid Number. A number of Transportation Agencies rely on the Wet-to-Dry accident ratio to identify potential locations with poor skid resistance. The results of the comparison further demonstrated the need and importance of collecting network level skid data. Another component of this study was to evaluate the effectiveness of various preservation treatments used within the Long Term Pavement Performance (LTPP) study. In addition, modeling was performed which examined the historical friction trends over time within various environment zones across North America to investigate skid resistance deterioration trends. The results of the analysis demonstrated that commonly used preservation treatments can increase skid resistance and improve safety. The cost effectiveness of implementing preservation and maintenance to increase the level of safety of a highway using Life Cycle Cost Analysis (LCCA) was evaluated. A Decision Making Framework was developed which included the formulation of a Decision Matrix that can be used to assist in selecting a preservation treatment for a given condition. The results of this analysis demonstrate the savings generated by reducing the number of collisions as a result of increasing skid resistance. The results of this research study have demonstrated the importance of network level friction testing and the impact of skid resistance on the level of safety of a highway. A review of the literature did not reveal any protocol or procedures for sampling or minimum test interval requirements for network level skid testing using a locked-wheel tester. Network level friction testing can be characterized as expensive and time-consuming due to the complexity of the test. As a result, any reduction in the required number of test points is a benefit to the transportation agency, private sector (consultants and contractors) and most importantly, the public. An analysis approach was developed and tested that can be used to minimize the number of required test locations along a highway segment using common statistical techniques.

Civil Engineering

An investigation of the Australian layered elastic tool for flexible aircraft pavement thickness design

White, Gregory William

January 2007

APSDS is a layered elastic tool for aircraft pavement thickness determination developed and distributed by Mincad Systems and based on the sister software Circly. As aircraft pavement thickness determination remains an empirical science, mechanistic-empirical design tools such as APSDS require calibration to full scale pavement performance, via the S77-1 curve. APSDS provides the unique advantage over other tools that it models all the aircraft in all their wandering positions, negating the need for designers to use pass to cover ratios and acknowledging that different aircraft have their wheels located at difference distances from the aircraft centerline. APSDS requires a range of input parameters to be entered, including subgrade modulus, aircraft types, masses and passes and a pavement structure. A pavement thickness is then returned which has 50% design reliability. Greater levels of reliability are obtained by conservative selection of input values. Whilst most input parameters have a linear influence on pavement thickness, subgrade modulus changes have a greater influence at lower values and less influence at higher values. When selecting input values, designers should concentrate their efforts on subgrade modulus and aircraft mass as these have the greatest influence on the required pavement thickness. Presumptive or standard values are generally acceptable for the less influential parameters. S77-1 pavement thicknesses are of a standard composition with only the subbase thickness varying. Non-standard pavement structures are determined using the principle of material equivalence and the FAA provides range of material equivalence factors, of which the mid-range values are most commonly used. APSDS allows direct modelling of non-standard pavement structures. By comparing different APSDS pavements of equal structural capacity, implied material equivalences can be calculated. These APSDS implied material equivalences lie at the lower end of the ranges published by FAA. In order to obtain consistence between APSDS and the FAA guidance, the following material equivalence values are recommended: * Asphalt for Crushed Rock. 1.3. * Crushed Rock for Uncrushed Gravel. 1.2. * Asphalt for Uncrushed Gravel. 1.6. Proof rolling regimes remain an important part of the design and construction of flexible aircraft pavements. Historically, designers relied on Bousinesq's equation and the assumption of point loads on semi-finite homogenous materials to determine proof rolling regimes using stress as the indicator of damage. The ability of APSDS to generate stress, strain and deflection at any depth and any location across the pavement allows these historical assumptions to be tested. As the design of a proof rolling regime is one of comparing damage indicators modelled under aircraft loads to those under heavy roller loads, the historical simplifications are generally valid for practical design scenarios. Where project specific data is required, APSDS can readily calculate stresses induced by proof rollers and aircraft at any location and depth for comparison. APSDS is a leading tool for flexible aircraft pavement thickness determination due to its flexibility, transparency and being free from bias. However, the following possible areas for improvement are considered worthy of future research and development: * Improvements to the user interface. * Ability to model aircraft masses as frequency distributions. * Ability to copy stress with depth data to Excel(tm) spreadsheets. * Ability to perform parametric runs. * Inclusion of a reliability based design module.

layered elastic thickness design

flexible aircraft pavement

sensitivity analysis

proof rolling

material equivalence

Contribuições ao estudo do comportamento mecânico de solos de subleito para fins de projeto de pavimentos asfálticos. / Contributions to the study of the mechanical behavior of subase soils for the design of asphalt pavement structures.

Santi Ferri

20 March 2018

O comportamento mecânico do subleito tem influência determinante no desempenho das estruturas de pavimento. Porém, muitas vezes, os estudos realizados para elaboração de projetos são simplistas e não levam em conta as variações de comportamento mecânico que podem ocorrer, seja por fatores construtivos, seja ambientais, como umidade, durante o período de operação. Neste sentido, métodos de dimensionamento mecanicistas-empíricos de estruturas de pavimentos empregam modelos de comportamento das diversas camadas da estrutura e do subleito, sendo alvos de constantes revisões para recalibração destes modelos, de modo que se aproximem mais da realidade do comportamento em serviço. As calibrações dos modelos são necessárias para aumentar a confiabilidade do dimensionamento de modo a garantir pavimentos mais duráveis, e para otimizar custos de execução e de manutenção ao longo da vida útil das estruturas. Neste contexto o presente trabalho propõe uma metodologia para compreender as propriedades dos solos do subleito e de suas variações, estabelecendo um programa de ensaios de campo e de laboratório, cadastramento, processamento e combinação de resultados de propriedades físicas e mecânicas de solos de subleitos de pavimentos de rodovias existentes. O objetivo final é estabelecer parâmetros de deformabilidade elástica de solos do subleito e sua variabilidade para auxiliar no dimensionamento de novas estruturas de pavimentos e reabilitação das antigas. O trabalho utiliza estudos de casos de pavimentos rodoviários em operação. O primeiro caso foi base para o estabelecimento metodológico de estudo desejável do subleito de um pavimento existente, concebendo modelos de previsão de comportamento resiliente do subleito para uso em futuros projetos de restauração deste pavimento ou para novos projetos em locais com similaridade de ocorrência de solos. Empregando a metodologia estabelecida no primeiro caso, fez-se uma busca minuciosa de dados em vários documentos existentes sobre pavimentos rodoviários de concessionárias do Estado de São Paulo, concebendo-se um banco de dados para análise do subleito destes pavimentos, de modo a ampliar a gama de solos pesquisados. Com resultados de caracterização de solos em laboratório e de deflectometria em campo, além de dados de localização dos pontos estudados em mapas geológicos e pedológicos, dados de precipitação, de terraplenagem, entre outros, pôde-se analisar os dados e identificar a influência de cada elemento na variação do módulo de resiliência dos solos de fundação de pavimentos em serviço. O banco de dados de ensaios laboratoriais de solos de subleito contou com um total de 3.894 registros e de ensaios não destrutivos deflectométricos de campo com um total de 169.525 registros (dados históricos de nove rodovias estaduais diferentes). Dentre as principais conclusões, verificou-se que grande parte dos modelos de correlações existentes na literatura entre parâmetros de propriedades físicas e de resistência (como CBR) de solos com o módulo de resiliência possui aplicação muito restrita, inviabilizando sua aplicação de forma indiscriminada em locais distintos daqueles onde foram obtidas as correlações. Além disso, verificou-se que o módulo de resiliência do subleito em campo apresenta variações de grande magnitude e, portanto, é de difícil previsão, requerendo acumulação de dados históricos, bem como de um cadastro adicional de maior gama de informações. Recomenda-se que maiores quantidades de ensaios sejam realizadas e que permitam verificação, ou dupla checagem, para validação, bem como para futuramente ser possível o estabelecimento de modelos matemáticos mais confiáveis. Nos estudos, foi possível estabelecer parâmetros estatísticos que podem ser utilizados tanto em métodos de dimensionamento vigentes ou novos, como naquelas que consideram as variações do módulo de resiliência do subleito para determinação do risco de falha, ou da confiabilidade das estruturas. / Subgrade mechanical behavior has a determining influence on the performance of pavement structures. However, often, the studies carried out for project designs are simplistic and do not take into account the variations that can occur in the mechanical behavior, whether by constructive factors or environmental ones, such as the moisture content during the operation period. Thus, mechanical-empirical design methods of pavement structures employ performance models of the many layers of the structure and of the subgrade, being targets of constant revisions for adjustment of these models so that they come closer to reality in operation behavior. Model adjustments are necessary to increase design reliability to ensure more durable pavements and to optimize execution and maintenance costs during the structure life. In this context, the present work proposes a methodology to understand the subgrade soil properties and their variations, establishing a program of field and laboratory tests, registration, processing and combination of results of physical and mechanical properties of subgrade soils of existing highway pavements. The final objective is to establish parameters of the subgrade soil elastic deformability and their variability to assist in the design of new pavement structures and in the rehabilitation of old ones. This work uses case studies of road pavements in operation. The first case was the basis for the methodological establishment of a desirable study of the subgrade of an existing pavement, designing predictive models of the subgrade resilient behavior for use in future rehabilitation projects of this pavement or for new projects in places with a similar occurrence of soils. By using the methodology established in the first case, a thorough data search was carried out in several existing documents on road pavements of concessionaires in the State of São Paulo, and a database was prepared to analyze the subgrade of such pavements in order to expand the range of soils studied. With the results of soil characterization in the laboratory and by field deflections, in addition to location data of the points studied in geological and pedological maps, precipitation and earthwork data, among others, it was possible to analyze the data and identify the influences of each element on the variation of the subgrade resilient modulus of the pavements in operation. The database from laboratory tests of subgrade soils covered a total of 3,894 registers and of non-destructive deflectometric field tests - a total of 169,525 registers (historical data on nine different state highways). Among the main conclusions, it was verified that most of the correlation models existing in the literature between parameters of physical and mechanical strength properties (like the CBR) of soils with the resilient moduli have very restricted application, making it impossible to apply them indiscriminately in places other than those where the correlations were obtained. In addition, it was verified that the resilient modulus of the subbase in situ presents variations of great magnitude and, therefore, it is difficult to make predictions. Lots of historical data are required, as well as additional registers of a greater range of information. Therefore, it is recommended that a larger number of tests be performed in order to allow for checking and double-checking for validation as well as the possibility of a future establishment of more reliable mathematical models. In the studies, it was possible to establish statistical parameters that can be used both in current and in new design methods, like in those that consider variations of the subgrade resilient moduli to determine the risk of failure or of the reliability of structures.

Módulo de resiliência

Pavimentos asfálticos

Asphalt pavements

Pavement design

Pavement performance

Resilient modulus

Subgrade

Aplicação do modelo de Tavakoli para gerência de manutenção de pavimentos em cidade de médio porte. / Application of the Takavoli model for management of maintenance of urban roads a midsize city.

Virgínia Esther Gueller Becker

27 June 2012

Este trabalho foi realizado com o objetivo de aplicar o Modelo de Tavakoli, que é um modelo de gerência de pavimentos para vias urbanas, para análise de priorização de vias urbanas em cidade de médio porte. Para isso se utilizou um estudo de campo previamente realizado pela Prefeitura Municipal de Suzano e pelo Laboratório de Mecânica de Pavimentos da Universidade de São Paulo no município de Suzano, no ano de 2007, com o qual foi criado um banco de dados das vias do município. Naquele estudo foi empregado o modelo HDM-4 do Banco Mundial para a priorização de intervenções de manutenção nas vias públicas. No presente trabalho buscou-se elaborar um estudo comparativo entre aquela solução e a solução atingida pelo modelo de Tavakoli para um mesmo conjunto de vias. Para este trabalho o Modelo de Tavakoli foi adaptado para planilhas eletrônicas e aplicado em um conjunto de seções de pavimentos, permitindo a determinação de uma lista de prioridades de intervenções. Posteriormente, essas intervenções foram simuladas para o mesmo conjunto de vias, buscando a priorização dos serviços, com o modelo HDM-4 versão 1.0. Através deste trabalho foi possível concluir que os dois critérios estudados podem ser úteis para gerenciar vias urbanas, pois priorizaram as intervenções necessárias nas vias urbanas analisadas. Foi possível verificar que o Modelo de Tavakoli se revelou mais conservador, por ser um critério fechado, com um índice de prioridades dependendo diretamente do índice da condição do pavimento e do volume diário médio de tráfego, afetando diretamente a classificação das seções. No Modelo HDM-4 a classificação das seções e os valores de irregularidade não tiveram uma sincronia, pois o HDM-4 é um modelo de critérios abertos, que permite ao usuário acrescentar vários parâmetros, e com estes foi possível reproduzir uma situação um pouco mais próxima da realidade. / This study was conceived in order to apply the Tavakoli Model, which is a pavement management system for urban roads, aiming the analysis of prioritization of urban streets in a mid-sized city. A field study previously conducted by Suzano City and the Pavements Mechanics Laboratory of the University of São Paulo in Suzano City in 2007 was used, from which was created a database of the towns streets. In that study, the Highway Design and Management (HDM-4) Model of the World Bank was employed for prioritizing maintenance work on public roads. In this study it was sought to develop a comparative study between the mentioned solution and the one reached by Tavakolis Model in the same set of roads. In this research the Tavakoli Model was adapted for the spreadsheets and applied to a set of pavement sections, allowing the determination of a priority list of interventions including the specific type of intervention for each segment. Subsequently, these same types of strategies or interventions were simulated for the same set of paths, seeking the prioritization, with HDM-4 Model version 1.0. Through this research it was possible to conclude that both criteria studied can be useful for managing urban roads, because they prioritized the necessary interventions in the urban roads analyzed. The Tavakoli Model proved to be more conservative, on account of being a closed criterion, with a priority index depending directly on the pavement condition index and average daily volume of traffic, affecting the classification of the sections directly as well. In the HDM-4 Model, the classification of the sections and values of the International Roughness Index did not match, due to HDM-4 being an open criteria model, which allows the user to add several parameters, and they can lead to more realistic report.

Gerência de pavimentos

HDM-4

Índice da condição do pavimento

Modelo de Tavakoli

HDM-4 Model

Pavement condition index

Pavement management

Tavakoli Model

Validação de resultados do inventário funcional de pavimentos flexíveis com o emprego do equipamento pavement scanner. / Validation of results of the functional inventory of flexible pavements with the use of pavement scanner equipment.

Paloma Cruz Gentil Fialho

27 April 2015

A elaboração de um programa de gerenciamento de uma rede rodoviária implica na utilização de montantes consideráveis de recursos em sua recuperação e manutenção. Neste cenário, ressalta-se a importância da validação de uma nova tecnologia de avaliação funcional de pavimentos para aplicação em rodovias brasileiras que permita a coleta de informações de forma automática, sem a interferência do profissional, minimizando o tempo de coleta e processamento de dados, reduzindo-se as interferências com o tráfego e garantindo informações de qualidade e de rápida restituição. O presente trabalho tem como objetivo a contribuição para o processo de avaliação funcional de pavimentos através validação de resultados do inventário funcional de pavimentos flexíveis com o emprego do equipamento Pavement Scanner, o que pode ser um novo processo que garanta a integridade, a confiabilidade e a plena restituição das informações para o projeto e programa de gestão de pavimentos. Para tanto, seções-teste foram inventariadas e estudadas, onde avaliou-se as condições funcionais do pavimento de acordo com a metodologia tradicional de avaliação da superfície do pavimento e sob a utilização do equipamento Pavement Scanner. Os resultados obtidos pelos diferentes métodos foram analisados e comparados, buscando-se determinar a variação obtida pelas diferentes técnicas de avaliação do pavimento, além da análise da repetitividade e reprodutividade de cada uma destas técnicas. Adicionalmente, foi estudada a aplicabilidade dos resultados obtidos pelo Pavement Scanner no cálculo do PCI (Índice da Condição do Pavimento, do inglês Pavement Condition Index), que é muito utilizado no exterior e considerado uma ferramenta eficaz na gerência de pavimentos. / The development of a road network management program implies the use of significant amounts of resources in their recovery and maintenance. In this scenario, it emphasizes the importance of validating a new technology of functional Pavement assessment for use in Brazilian highways that allows the automatic collection of information, without the interference of a professional, minimizing the time in collecting and processing of data, reducing interference with traffic and ensuring information quality and fast refund. This study aims to contribute to the process of functional pavement evaluation through the validation of results of the functional inventory of flexible pavements with the use of Pavement Scanner equipment, which can be a new process to ensure the integrity, reliability and full refund of information for the pavement management program. With this purpose, sections-tests were surveyed and studied, in which the functional pavement conditions were evaluated according to the traditional method of pavement surface evaluation and with the use of Pavement Scanner equipment. The results obtained by different methods were analyzed and compared, in order to determine the variation obtained by the different pavement evaluation techniques, in addition to the analysis of repeatability and reproducibility of each of these techniques. Furthermore, it was studied the applicability of the results obtained by Pavement Scanner in the calculation of PCI (Pavement Condition Index), which is widely used abroad and considered an effective tool in pavement management.

Avaliação funcional

Defeitos

Equipamentos para inventário funcional

Pavement scanner

Pavimentos flexíveis

Equipment for functional inventory

Fevaluation

Pavement scanner

Surface distresses

Performance of flexible pavements enhanced using geogrid-reinforced asphalt overlays / Desempenho de pavimentos flexíveis utilizando geogrelha como reforço de capa asfáltica.

Natália de Souza Correia

03 October 2014

The study of innovative pavements is of significant importance in geotechnical engineering in Brazil, due to the continued need to increase the network of roadways. This requires optimized projects, not only for economic, but also for technical reasons. Technical solutions that use geosynthetics in asphalt overlays have been identified to minimize fatigue and reflective cracks. However, the majority of the application of this technology has ignored the possible additional structural benefits brought by the inclusion of geosynthetics as reinforcement in asphalt layers. The objective of this research is to assess the reinforcement benefits of geogrids placed within asphalt overlays on the structural performance of flexible pavements. In addition, this study investigates the tensile-strain response of geogrids under traffic conditions, induced by cyclic wheel loads generated by a new accelerated pavement testing facility (APT) that was specifically developed for this research. The APT facility consists of a large steel testing box, in which field-scale pavement layers could be constructed. Pavement materials included subgrade soil, aggregate base, hot mix asphalt concrete, asphalt emulsion and a PVA geogrid. Pavement performance was assessed by applying a cyclic wheel load pressure of 700 kPa to the pavement surface. The pavement sections investigated in this study included a geogrid-reinforced and an unreinforced asphalt overlay sections, a single new geogrid-reinforced asphalt layer, and a geogrid-reinforced asphalt overlay with reduced base course thickness. A variety of sensors were used to measure asphalt concrete strains, surface plastic and elastic displacements, and induced traffic loads. Displacements along the geogrid specimens were measured using a tell-tail system. As result, several reinforcement mechanisms of this technique could be quantified in the present study. Polymeric geogrid reinforcements were found to have considerably reduced strains developed at the bottom of asphalt layers, as well as to have reduced vertical stresses in pavement lower layers. Resistance to rutting and lateral movement induced by the geogrids were also clearly evidenced in the presented study. The measurement of displacements along the geogrid provided understanding of the distribution of strains during traffic loading. A mobilized length was identified in geogrid-reinforced sections, showing that the bonding between geogrids and asphalt layers and the stiffness of the geogrid ensured satisfactory performance of the pavement sections. The results also illustrated that the lateral restraining mechanisms effect is a governing mechanism to improve the performance of the asphalt layers by the development of shearing resistance with the geogrids. Overall, it was concluded that geogrids within asphalt overlays act as reinforcement and not merely to delay cracks, providing enhanced performance to flexible pavement structures. / O estudo de pavimentos é de grande importância na Engenharia Geotécnica brasileira devido à crescente necessidade de melhora da situação da rede rodoviária nacional. Para tanto, o desenvolvimento e a aplicação de novas técnicas são necessários, principalmente no âmbito econômico. A técnica do uso de reforços geossintéticos em capa asfáltica é identificada como uma alternativa ao aumento da vida útil do pavimento através da mitigação de trincas por fadiga e de reflexão. No entanto, a maioria das aplicações desta técnica não correlaciona os benefícios estruturais da inclusão do geossintético na capa asfáltica para a melhora do desempenho global do pavimento. O objetivo desta pesquisa é investigar os benefícios estruturais no desempenho de pavimentos flexíveis trazidos pelo reforço de geogrelhas em camadas asfálticas. Ainda neste estudo, será investigada a reposta tensão-deformação destas geogrelhas sobre as condições de tráfego através do uso de ensaios acelerados de pavimento. Um equipamento foi desenvolvido para esta pesquisa e consiste numa caixa metálica de grande porte, em que seções de pavimento em escala real podem ser construídas. O desempenho das seções de pavimento foi avaliado com a aplicação de cargas cíclicas de roda com pressão de contato de 700 kPa. Os materiais que compõem as seções de pavimento incluem solo de subleito, brita graduada simples, concreto betuminoso usinado à quente, emulsão asfáltica e geogrelha de PVA. Foram estudadas uma seção com geogrelha como reforço no recapeamento da camada asfáltica, uma seção idêntica não reforçada, uma seção com uma única capa asfáltica reforçada com geogrelha e uma seção com geogrelha no recapeamento da camada asfáltica, porém com espessura de base reduzida em relação aos demais ensaios. Sensores nas camadas do pavimento mediram tensões e deformações, e deslocamentos plásticos e elásticos na superfície. Deslocamentos ao longo da geogrelha foram monitorados utilizando o sistema tell-tales. Como resultado, mecanismos de reforço foram identificados neste estudo. O uso de uma geogrelha polimérica reduziu consideravelmente as deformações na fibra inferior da capa asfáltica, assim como as tensões verticais nas camadas subjacentes do pavimento. Resistência à formação de trilhas de roda e solevamentos laterais foram também evidenciadas. As medidas de deslocamentos ao longo da geogrelha forneceram entendimento da distribuição de deformações durante o carregamento. Foi identificado o comprimento de geogrelha mobilizado durante os ensaios, mostrando que a aderência entre a geogrelha e as camadas asfálticas e a rigidez da geogrelha asseguraram o desempenho satisfatório das seções de pavimento. Os resultados também mostraram que o efeito do mecanismo de restrição lateral é um mecanismo que governa a melhora no desempenho da capa asfáltica com o uso da geogrelha através do desenvolvimento de resitência ao cisalhamento. Estas observações permitem concluir que a geogrelha na camada asfáltica atua como reforço e não apenas reduzindo a o potencial de trincamento, levando à um aumento no desempenho de estruturas de pavimentos flexíveis.

camada asfáltica

ensaios acelerados de pavimento

geogrelha

pavimento flexível

reforço

accelerated pavement testing

asphalt overlay

flexible pavement

geogrid

reinforcement

Análise do comportamento estrutural e funcional de um pavimento experimental com blocos pré-moldados de concreto. / Analysis of structural and functional behavior of an experimental pavement with precast concrete blocks.

Eric Ribeiro da Silva

10 November 2016

Dentre a vasta gama de alternativas estruturais possíveis para a construção de pavimentos, os revestimentos com blocos pré-moldados de concreto têm sua aplicação consolidada em pavimentação de áreas portuárias. Além disso, em muitos países, este tipo de pavimento tem sido utilizado com sucesso em aplicações rodoviárias, aeroportuárias, em pátios industriais e em demais aplicações para tráfegos veiculares e de pedestres. No Brasil, no entanto, devido a insucessos em sua utilização, motivados, muitas vezes, pela inobservância de parâmetros técnicos relevantes a essa tecnologia, contribuíram para que este tipo de pavimento tenha sido subutilizado. Todavia, as recentes revisões nas normas nacionais que tratam deste tema, a criação de novas normatizações e a recente construção de importantes rodovias utilizando este tipo de revestimento, contribuem para o aperfeiçoamento de profissionais e a diminuição do prejulgamento desta tecnologia. Neste sentido, é de suma importância estudar o comportamento estrutural e funcional deste tipo de pavimento. De modo que, neste trabalho, foram estudadas quatro seções de dois trechos experimentais construídos entre julho e setembro de 2010. Foram realizadas avaliações destrutivas e não destrutivas para análise dos materiais, suas espessuras e confronto com os parâmetros construtivos oriundos do projeto e da literatura, bem como a verificação das condições para realização de retroanálise dos módulos de resiliência das camadas do pavimento. Os levantamentos deflectométricos apresentaram patamares muito elevados de deflexões reversíveis em todas as seções estudadas. Das aberturas de cavas e confronto com a estrutura de projeto, verificou-se incompatibilidades entre os materiais e espessuras das camadas do pavimento projetado x pavimento construído, destacando-se a condição verificada na camada de base por apresentar significativa desagregação do material, cujo projeto indicava utilização de concreto compactado com rolo (CCR), o que evidencia problemas no controle tecnológico dos materiais e falhas no gerenciamento da obra. Por meio das retroanálises foram verificadas diminuições significativas dos módulos de resiliência das camadas do pavimento, quando comparado com os parâmetros de projeto. Os índices de condições do pavimento (ICP) apontaram condições distintas nas seções avaliadas mesmo sujeitas ao mesmo tráfego de veículos. / Among the wide range of possible structural alternatives for the construction of pavements, interlocking concrete pavements are the orthodox solution for paving ports. Furthermore, in many countries, this type of pavement has been successfully used in highways, airport applications, in industrial areas and other applications for vehicular traffic and pedestrians. In Brazil, however, due to failures in its use, driven often by the lack of relevant technical parameters to this technology, contributed to the fact that this type of pavement has been misused. Although, recent reviews from the national standards that deal with this type of pavement, the creation of new standards and the recent construction of important highways using this type of structure, have contributed to the improvement of professionals and decreased the prejudice of this technology. In this sense, it is extremely important to study the structural and functional behavior of this type of pavement. Therefore, in this research it was studied two experimental sections built between July and September 2010 that carried out destructive and nondestructive evaluations for the analysis of materials, their thicknesses and constructive confrontation with the parameters derived from the project and the literature, as well verifying the conditions to accomplish the back calculation of the elastic modulus of the pavement layers. The displacement tests surveys demonstrated very high levels of reversible displacements in all studied sections. From the inspection pits openings and confrontation with the project structure, there is incompatibility between the materials and thicknesses of the layers of the designed pavement versus constructed pavement, the condition verified highlighting the base layer for introducing significant breakdown of the material, which design indicated use of roller-compacted concrete (RCC), which indicates problems in the quality control of materials and failures in the management. The back calculation showed that decreases were observed elastic modulus of the pavement layers when compared with the design parameters. Surveys concerning pavement condition index (PCI) showed different conditions for the evaluated sections even supporting the same traffic.

Base cimentada

Blocos

Pavimentação

Pavimentação de concreto

Pavimento intertravado

Cement-treated bases

Concrete pavement

Interlocking concrete pavement

Paving