Sunkiasvorio transporto įtaka automobilių kelių asfaltbetonio dangos funkcionavimo trukmei / Impact of Heavy Weight Vehicles on Duration of Service Life of Asphalt Concrete Road Pavement

Butkevičius, Saulius

04 December 2007

Pastaraisiais metais Lietuvoje ženkliai padidėjęs sunkiasvorio transporto eismas sąlygoja ankstyvą daugumos šalies kelių dangų suirtį, nes jau nepakanka esamo jos stiprio. Įvairios asfaltbetonio dangos pažaidos rodo, kad ardoma ne tik danga, bet ir jos konstrukcija – tai didina išlaidas kelių remontui bei priežiūrai, mažėja eismo saugumas bei komfortiškumas. Iki šiol Lietuvoje dar nėra metodikos, kurią taikant būtų galima pakankamai tiksliai įvertinti sunkiasvorio transporto poveikį kelių dangai. Šiame darbe ištirta sunkiasvorio transporto eismo ardomojo poveikio, įvertinant Lietuvos klimato sąlygas, įtaka kelių dangos asfaltbetonio sluoksnių stipriui ir funkcionavimo trukmei. Pateikta metodika sunkiasvorio transporto eismo ir apkrovų ardančio poveikio Lietuvos kelių dangai, priklausomai nuo eismo sezoniškumo, jos stiprio, asfaltbetonio sluoksnių likutinio stiprio bei kelių dangos įtempto-deformuoto būvio kitėjimo, įvertinti. Pasiūlytas kelių dangos asfaltbetonio sluoksnių likutinio stiprio ir funkcionavimo trukmės likutinio resurso modelis. Modelis įvertina apkrovos parametrus bei jos poveikio intensyvumą, automobilių srauto sudėtį, kelių dangos sluoksnių medžiagų bei jai stiprinti naudojamų medžiagų projektines savybes, kelių dangos sluoksnio medžiagos stiprio kitėjimą, atsižvelgiant į jos suirties mastą, kelių dangos darbą, esant įvairioms vietovės klimato sąlygoms, skirtingiems žemės sankasos gruntams ir vietovės hidroterminiams rėžimams, remonto darbų kainą bei ekonominį... [toliau žr. visą tekstą] / The marked increase of heavy weight vehicle traffic in Lithuania in recent years is the reason for early deterioration of majority road pavements of the country due to inadequate strength of road pavements. Various kinds of damages in asphalt concrete pavements indicate that damage is made not only to a pavement but to its construction as well, which increases costs for road repair and maintenance and reduces road safety and comfort. There is no methodology in Lithuania that would allow to evaluate the impact of heavy weight vehicles on a road pavement with adequate preciseness. This study analyses the impact of damaging effect of heavy weight vehicle traffic on the strength and duration of service life of asphalt concrete layers in a road pavement taking account of climate conditions of Lithuania. A methodology to evaluate the damaging effect of heavy weight vehicle traffic and loads on road pavements in Lithuania depending on seasonal peculiarities of traffic, its strength, remaining strength resource of asphalt concrete layers and changes in stressed or deformed state of a road pavement is presented. A model of remaining strength of asphalt concrete layers in a road pavement and remaining resource of service life was proposed. The model evaluates load parameters and intensity of its impact, composition of vehicle flow, design characteristics of materials in layers of a road pavement and materials used when strengthening it, changes in the strength of layer material in a... [to full text]

Civil Enginering

Kelių dangos konstrukcija

Dangos suirtis

Sunkiasvoris transportas

Likutinis stiprio resursas

Funkcionavimo trukmė

Road pavement construction

Deterioration of a pavement

Heavy weight vehicle

Remaining strength

Duration of service life

LONG-TERM PERFORMANCE OF HDPE GEOMEMBRANES AS LANDFILL LINERS

ISLAM, MOHAMMAD

02 February 2009

High density polyethylene (HDPE) geomembranes are normally used as part of a composite liner for waste containment facilities such as municipal solid waste (MSW) landfills and heap leach pads. Field conditions, which include physical stresses on the geomembrane, elevated operating temperatures, and contact with leachate constituents, have the potential to affect the service life of the HDPE geomembranes. This thesis examined the long-term performance of different HDPE geomembranes based on both conventional laboratory accelerated immersion tests and simulated landfill liner tests. A 1.5mm HDPE geomembrane was immersed in different synthetic leachates at different temperatures in order to evaluate the effects of leachate chemical constituents on the depletion of antioxidants. The results showed that a basic leachate with trace metals, surfactant, and a reducing agent was the most appropriate for evaluating the potential degradation of HDPE geomembranes. A similar immersion test was performed to evaluate the effects of thickness on the ageing of HDPE geomembranes. Three commercially available HDPE geomembranes having nominal thicknesses of 1.5, 2.0, and 2.5mm were immersed in a synthetic leachate at four different temperatures in this experiment. The results showed that a thicker geomembrane may have a longer service life if other things are similar. The depletion of antioxidants from a 1.5mm thick HDPE geomembrane was examined by conducting accelerated ageing tests at 55, 70, and 85oC under simulated landfill liner conditions. The results showed that the antioxidant depletion rate was consistently lower for the simulated landfill liner tests compared to the leachate immersion tests. The effectiveness of the aged HDPE geomembrane on the migration of volatile organic compounds (VOCs) was examined by conducting diffusion and partitioning tests using both unaged and aged HDPE geomembranes. The results showed that the ageing of HDPE geomembranes did not increase diffusive migration of organic contaminants, provided that the geomembrane remained intact. A new method was developed to estimate the service life of the HDPE geomembrane based on the landfill liner temperature history. The service lives of the HDPE geomembranes were calculated to be between 20 and 4700 years, depending on the geomembrane type, exposure conditions, and the time-temperature history examined. / Thesis (Ph.D, Civil Engineering) -- Queen's University, 2009-01-30 09:30:49.135

Antioxidant

Degradation

Diffusive migration

Geomembrane

HDPE

Landfill

Leachate

Long-term performance

Service life

Simulated landfill liner

Temperature

Thickness

Volatile organic compounds

Geoenvironmental engineering

Geotechnical engineering

Civil engineering

Carrier Grade Adaptation for an IP-based Multimodal Application Server: Moving the SoftBridge into SLEE

Sun, Tao

January 2004

<p>Providing carrier grade characteristics for Internet Protocol (IP) communication applications is a significant problem for IP application providers in order to offer integrated services that span IP&nbsp / and telecommunication networks. This thesis addresses the provision of life-cycle management, which is only one carrier grade characteristic, for a SoftBridge application, which is an example of IP communication applications. A SoftBridge provides semi-synchronous multi-modal IP-based communication. The work related to IP-Telecommunication integrated services and the SoftBridge is analyzed with respect to life-cycle management in a literature review. It is suggested to use an Application Server in a Next Generation Network (NGN) to provide life-cyclemanagement functionality for IP-Telecommunication applications. In this thesis, the Application Server is represented by a JAIN Service Logic Execution Environment(JSLEE), in which&nbsp / a SoftBridge application can be deployed, activated, deactivated, uninstalled and upgraded online.Two methodologies are applied in this research: exploratory prototyping, which evolves the development of a SoftBridge application, and empirical comparison, which is concerned with the empirical evaluation of a SoftBridge application in terms of carriergrade capabilities. A SoftBridge application called SIMBA&nbsp / provides a Deaf Telephony service similar to aprevious Deaf Telephony SoftBridge, However, SIMBA&rsquo / s SoftBridge design and implementation are unique to this thesis. In order to test the life-cycle&nbsp / management ability of SIMBA, an empirical evaluation is carried out including the experiments oflife-cycle management and call-processing performance. The final experimental results of the evaluation show that a JSLEE is able to provide life-cycle management for SIMBA without causing a significant decrease in performance. In conclusion, the life-cycle management can be provided&nbsp / or a SoftBridge application by using an Application Server such as a JSLEE. Futhermore, the results indicate that&nbsp / approach of using Application Server (JSLEE) integration should be&nbsp / sufficiently general to provide life cycle management, and indeed other carrier grade capabilities, for other IP communication applications. This allows IP communication applications to be&nbsp / &nbsp / &nbsp / integrated into an NGN.</p>

Behavior-based power management in autonomous mobile robots

Fetzek, Charles A.

January 2008

Thesis (M.S.)--Air Force Institute of Technology, 2008. / Title from title page of PDF document (viewed on: Dec 10, 2009).

AVALIAÇÃO DO FENÔMENO DE FADIGA E DAS PROPRIEDADES ELÁSTICAS DE MISTURAS ASFÁLTICAS COM DIFERENTES LIGANTES EM VARIADAS TEMPERATURAS / LABORATORY STUDY OF FATIGUE PHENOMENON AND THE ELASTIC PROPERTIES OF ASPHALTIC CONCRETE MIXTURES AT DIFFERENT TEMPERATURES

Rossato, Fábio Pereira

15 May 2015

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / It is certain that most of Brazilian highways are under unfavorable conditions of trafficability. Technological developments led to a large increase in load capacity of trucks, resulting in higher impacts on the highways. Another factor to be considered in this degradation process of pavements is climatic variations, very common in Brazil. Among many types of defects found on Brazilian highways, one deserves special attention, the fatigue cracking. Aiming to investigate this problem, this study aimed to study the fatigue phenomenon in laboratory for asphalt mixture used in the field (Av. Hélvio Basso, Santa Maria-RS) and evaluate in laboratory its possible improvement using polymer modified binder before to fatigue performance at three different temperatures: 10°C, 25°C and 35°C. Three asphalt mixtures were prepared in the la, two conventional binder used in the monitored section (CACAMPO asphalt content in the field, and CALAB 50/70 asphalt content obtained in laboratory dosage), and a third polymer modified binder with (CALAB 60/85-E). Mixtures reproduced in the laboratory were prepared according to the Marshall methodology and the materials were characterized according to traditional experiments. For all mixtures, the volumetric parameters were determined, stability, fluency, adhesion, Indirect Tensile Streght, Total Resilience Moduli and performance to fatigue by indirect tensile stress under controlled mode. These last three were held at the three test testing temperatures. In the laboratory, it was evident the improvement in thermal susceptibility properties and stability of the mixture by using the modified binder polymer, providing a blend less susceptible to variations in temperature and stable at high temperatures. The results obtained in the laboratory demonstrated the superiority of the mixture CALAB 60/85 E, for the three temperatures studied, with emphasis on the destructive tests at the higher temperature. The rigidity of the mixtures, measured by the resilience module, showed little influence by the use of the modified binder, however, showed very different behavior with variation in temperature. Regarding the fatigue performance, the modified blends proved to be far superior than the conventional mix, ensuring an increase in service life for the three temperatures studied, specially for the temperature of 35°C. The temperature variation of the test proved to be very crucial in the fatigue performance of the asphalt mixture, which is inversely proportional to the temperature increase. At the end of the study, it is concluded that the use of polymer modified binders for can be a great option to improve the performance of asphalt mixtures against the fatigue rupture mechanism and it can be used successfully in regions with large temperature variations. Thus, it is possible to ensure an increase in the service life of the asphalt layer and therefore to the pavement as a whole. / É notório que grande parte das rodovias brasileiras encontram-se em condições desfavoráveis de trafegabilidade. A evolução tecnológica permitiu um grande aumento da capacidade de carga dos caminhões, refletindo em maiores solicitações nas rodovias. Outro fator a ser considerado neste processo degradativo dos pavimentos são as variações climáticas, muito presentes no Brasil. Dentre tantos tipos de defeitos encontrados nas rodovias brasileiras, um deles merece destaque especial, a degradação por fadiga. Com intuito de investigar tal problema, o presente trabalho teve como propósito estudar o fenômeno de fadiga em laboratório para uma mistura asfáltica utilizada em campo (Av. Hélvio Basso, Santa Maria-RS) e avaliar, em laboratório, a sua possível melhora pelo uso de ligante modificado por polímero perante o seu desempenho à fadiga, em três temperaturas distintas: 10°C, 25°C e 35°C. Foram preparadas em laboratório três misturas asfálticas, duas com o ligante convencional utilizado no trecho monitorado (CACAMPO, teor de asfalto de campo, e CALAB 50/70, teor de asfalto obtido em dosagem de laboratório) e uma terceira, com ligante modificado por polímero (CALAB 60/85-E). As misturas foram preparadas conforme a Metodologia Marshall e os insumos foram caracterizados de acordo com ensaios tradicionais. Para todas as misturas, determinram-se os parâmetros volumétricos, estabilidade, fluência, adesividade, Resistência à Tração indireta, Módulo de Resiliência total e desempenho à fadiga por tração indireta à tensão controlada. Estes três últimos foram realizados nas três temperaturas de ensaio. Em laboratório, ficou evidente a melhora das propriedades de suscetibilidade térmica e estabilidade da mistura pelo uso do ligante modificado por polímero, proporcionando uma mistura menos suscetível às variações de temperatura e mais estável a temperaturas elevadas. Os resultados obtidos em laboratório demonstraram a superioridade da mistura CALAB 60/85-E, para as três temperaturas analisadas, com ênfase para os ensaios destrutivos à temperatura mais elevada. A rigidez das misturas, medida pelo Módulo de Resiliência, mostrou-se pouco influenciável pela utilização do ligante modificado, porém, apresentou comportamentos bem distintos com a variação da temperatura. Quanto ao desempenho à fadiga, as misturas modificadas apresentaram-se muito superiores às convencionais, garantindo um incremento na vida de serviço para as três temperaturas analisadas, sendo este, mais evidente para a temperatura de 35°C. A variação da temperatura de ensaio mostrou-se bastante determinante no desempenho à fadiga das misturas asfálticas, sendo este, inversamente proporcional ao aumento de temperatura. Ao término do estudo, conclui-se que o emprego de ligantes modificados por polímero pode ser uma ótima opção de melhora do desempenho de misturas asfálticas frente ao mecanismo de ruptura por fadiga, podendo ser utilizado com sucesso em regiões que apresentam grandes variações térmicas. Desta forma, garantindo um incremento na vida de serviço do revestimento asfáltico e consequentemente ao pavimento como um todo.

Desempenho à fadiga

Variações climáticas

Ligantes asfálticos modificados

Vida de serviço

Performance to fatigue

Climatic variations

Modified asphalt binders

Service life

CNPQ::ENGENHARIAS::ENGENHARIA CIVIL

Carrier grade adaptation for an IP-based multimodal application server: moving the softbridge into SLEE

Sun, Tao

January 2004

Magister Scientiae - MSc / Providing carrier grade characteristics for Internet Protocol (IP) communication applications is a significant problem for IP application providers in order to offer integrated services that span IP and telecommunication networks. This thesis addresses the provision of life-cycle management, which is only one carrier grade characteristic, for a SoftBridge application, which is an example of IP communication applications. A SoftBridge provides semi-synchronous multi-modal IP-based communication. The work related to IP-Telecommunication integrated services and the SoftBridge is analyzed with respect to life-cycle management in a literature review. It is suggested to use an Application Server in a Next Generation Network (NGN) to provide life-cyclemanagement functionality for IP-Telecommunication applications. In this thesis, the Application Server is represented by a JAIN Service Logic Execution Environment(JSLEE), in which a SoftBridge application can be deployed, activated, deactivated, uninstalled and upgraded online.Two methodologies are applied in this research: exploratory prototyping, which evolves the development of a SoftBridge application, and empirical comparison, which is concerned with the empirical evaluation of a SoftBridge application in terms of carriergrade capabilities. A SoftBridge application called SIMBA provides a Deaf Telephony service similar to aprevious Deaf Telephony SoftBridge, However, SIMBA’s SoftBridge design and implementation are unique to this thesis. In order to test the life-cycle management ability of SIMBA, an empirical evaluation is carried out including the experiments oflife-cycle management and call-processing performance. The final experimental results of the evaluation show that a JSLEE is able to provide life-cycle management for SIMBA without causing a significant decrease in performance. In conclusion, the life-cycle management can be provided or a SoftBridge application by using an Application Server such as a JSLEE. Futhermore, the results indicate that approach of using Application Server (JSLEE) integration should be sufficiently general to provide life cycle management, and indeed other carrier grade capabilities, for other IP communication applications. This allows IP communication applications to be integrated into an NGN.Providing carrier grade characteristics for Internet Protocol (IP) communication applications is a significant problem for IP application providers in order to offer integrated services that span IP and telecommunication networks. This thesis addresses the provision of life-cycle management, which is only one carrier grade characteristic, for a SoftBridge application, which is an example of IP communication applications. A SoftBridge provides semi-synchronous multi-modal IP-based communication. The work related to IP-Telecommunication integrated services and the SoftBridge is analyzed with respect to life-cycle management in a literature review. It is suggested to use an Application Server in a Next Generation Network (NGN) to provide life-cyclemanagement functionality for IP-Telecommunication applications. In this thesis, the Application Server is represented by a JAIN Service Logic Execution Environment(JSLEE), in which a SoftBridge application can be deployed, activated, deactivated, uninstalled and upgraded online.Two methodologies are applied in this research: exploratory prototyping, which evolves the development of a SoftBridge application, and empirical comparison, which is concerned with the empirical evaluation of a SoftBridge application in terms of carriergrade capabilities. A SoftBridge application called SIMBA provides a Deaf Telephony service similar to aprevious Deaf Telephony SoftBridge, However, SIMBA’s SoftBridge design and implementation are unique to this thesis. In order to test the life-cycle management ability of SIMBA, an empirical evaluation is carried out including the experiments oflife-cycle management and call-processing performance. The final experimental results of the evaluation show that a JSLEE is able to provide life-cycle management for SIMBA without causing a significant decrease in performance. In conclusion, the life-cycle management can be provided or a SoftBridge application by using an Application Server such as a JSLEE. Futhermore, the results indicate that approach of using Application Server (JSLEE) integration should be sufficiently general to provide life cycle management, and indeed other carrier grade capabilities, for other IP communication applications. This allows IP communication applications to be integrated into an NGN. / South Africa

Application programming interface

Application server

Carrier grade

JAIN

Internet telephony

Multi-modal

Communication

Next generation network

Service logic

Execution environment

Service life-cycle management

SoftBridgeexecution environment

SoftBridge

Modelagem da carbonatação e previsão de vida útil de estruturas de concreto em ambiente urbano

Possan, Edna

January 2010

Este trabalho propõe um modelo matemático destinado à estimativa da profundidade de carbonatação e à previsão de vida útil de projeto de estruturas de concreto, envolvendo variáveis de entrada de fácil obtenção (como resistência à compressão, tipo de cimento, umidade relativa, entre outras). Com base no conhecimento de experts (grupo focal) criou-se o banco de dados que deu origem ao modelo, o qual considera as principais variáveis de influência na ação da carbonatação, incluindo: às características do concreto (resistência à compressão do concreto aos 28 dias, o tipo de cimento empregado, o teor de adição, quando houver); às condições de exposição (macro clima - ambiente interno ou externo, protegido ou não da chuva); e, às condições ambientais (umidade relativa média da região de exposição da estrutura e o teor de CO2 do ambiente). O modelo matemático proposto baseou-se no ajuste de dados considerando as leis físico-químicas pertinentes, o qual foi testado com dados de investigações experimentais realizadas por outros pesquisadores. Os resultados indicam que o mesmo representa a ação da carbonatação do concreto, apresentando potencial de generalização. Também foi empregado para a previsão de vida útil de projeto, com uma abordagem probabilística via Simulação de Monte Carlo (SMC) e Análise de confiabilidade, inserindo as variabilidades existentes no processo de degradação. Os resultados das simulações demonstram que o modelo pode ser empregado para estimativa de vida útil via processos estocásticos. O modelo foi desenvolvido essencialmente para servir como um suporte para a análise da durabilidade de estruturas de concreto armado em ambiente urbano, podendo ser empregado tanto para a estimativa da profundidade de carbonatação do concreto quanto para a previsão de vida útil de projeto de estruturas novas ou existentes, com abordagem determinística ou probabilística. As maiores vantagens do modelo são relacionadas à entrada de dados os quais podem ser obtidos com relativa facilidade, à facilidade de aplicação e ao potencial de generalização. / This research work proposes a mathematical model to estimate carbonation depths and the service life prediction of concrete structures using easily accessible input variables (such as compressive strength, cement type, relative humidity, etc.). The model was designed using a database which was developed using the knowledge of experts (focus group). This database assesses the main variables that affect carbonation in concrete (compressive strength at 28 days, type of cement, concentration of addition, if applicable), exposure conditions (macroclimate – indoors or outdoors, exposure to rain) and environmental conditions (mean relative humidity and carbon dioxide concentration of the area where the structure is located). The proposed model was tested using experimental data from other researchers and the results suggest that it accurately represents the effects of carbonation in concrete, with results that can be expanded to other structures. The mathematical model was also applied to forecasts of the service life of a project using the probabilistic approach of Monte Carlo methods (MC) and an analysis of reliability that accounted for the intrinsic variability found in decay processes. The results of the simulations show that the model can be used to estimate the service life of a project using a stochastic technique. The model was developed to serve mainly as a supporting feature in the assessment of durability in reinforced concrete structures in urban environments and can be applied both to estimates of carbonation depths and to the service life prediction of projects of new or existing structures, using deterministic or probabilistic approaches. The major benefits offered by this model are related to the input of data, which are readily available, its ease of use and its potential for application in general situations.

Carbonatação

Durabilidade do concreto

Modelos matemáticos

Método de Monte Carlo

Confiabilidade

Concrete carbonation

Life cycle

Service life prediction

Monte Carlo simulation

Reliability analysis

Focus group

Modelagem da carbonatação e previsão de vida útil de estruturas de concreto em ambiente urbano

Possan, Edna

January 2010

Este trabalho propõe um modelo matemático destinado à estimativa da profundidade de carbonatação e à previsão de vida útil de projeto de estruturas de concreto, envolvendo variáveis de entrada de fácil obtenção (como resistência à compressão, tipo de cimento, umidade relativa, entre outras). Com base no conhecimento de experts (grupo focal) criou-se o banco de dados que deu origem ao modelo, o qual considera as principais variáveis de influência na ação da carbonatação, incluindo: às características do concreto (resistência à compressão do concreto aos 28 dias, o tipo de cimento empregado, o teor de adição, quando houver); às condições de exposição (macro clima - ambiente interno ou externo, protegido ou não da chuva); e, às condições ambientais (umidade relativa média da região de exposição da estrutura e o teor de CO2 do ambiente). O modelo matemático proposto baseou-se no ajuste de dados considerando as leis físico-químicas pertinentes, o qual foi testado com dados de investigações experimentais realizadas por outros pesquisadores. Os resultados indicam que o mesmo representa a ação da carbonatação do concreto, apresentando potencial de generalização. Também foi empregado para a previsão de vida útil de projeto, com uma abordagem probabilística via Simulação de Monte Carlo (SMC) e Análise de confiabilidade, inserindo as variabilidades existentes no processo de degradação. Os resultados das simulações demonstram que o modelo pode ser empregado para estimativa de vida útil via processos estocásticos. O modelo foi desenvolvido essencialmente para servir como um suporte para a análise da durabilidade de estruturas de concreto armado em ambiente urbano, podendo ser empregado tanto para a estimativa da profundidade de carbonatação do concreto quanto para a previsão de vida útil de projeto de estruturas novas ou existentes, com abordagem determinística ou probabilística. As maiores vantagens do modelo são relacionadas à entrada de dados os quais podem ser obtidos com relativa facilidade, à facilidade de aplicação e ao potencial de generalização. / This research work proposes a mathematical model to estimate carbonation depths and the service life prediction of concrete structures using easily accessible input variables (such as compressive strength, cement type, relative humidity, etc.). The model was designed using a database which was developed using the knowledge of experts (focus group). This database assesses the main variables that affect carbonation in concrete (compressive strength at 28 days, type of cement, concentration of addition, if applicable), exposure conditions (macroclimate – indoors or outdoors, exposure to rain) and environmental conditions (mean relative humidity and carbon dioxide concentration of the area where the structure is located). The proposed model was tested using experimental data from other researchers and the results suggest that it accurately represents the effects of carbonation in concrete, with results that can be expanded to other structures. The mathematical model was also applied to forecasts of the service life of a project using the probabilistic approach of Monte Carlo methods (MC) and an analysis of reliability that accounted for the intrinsic variability found in decay processes. The results of the simulations show that the model can be used to estimate the service life of a project using a stochastic technique. The model was developed to serve mainly as a supporting feature in the assessment of durability in reinforced concrete structures in urban environments and can be applied both to estimates of carbonation depths and to the service life prediction of projects of new or existing structures, using deterministic or probabilistic approaches. The major benefits offered by this model are related to the input of data, which are readily available, its ease of use and its potential for application in general situations.

Carbonatação

Durabilidade do concreto

Modelos matemáticos

Método de Monte Carlo

Confiabilidade

Concrete carbonation

Life cycle

Service life prediction

Monte Carlo simulation

Reliability analysis

Focus group

Modelos de previsão da despassivação das armaduras em estruturas de concreto sujeitas à carbonatação. / Prediction models of the despassivation of reinforcement steel in concrete structures due to carbonation.

Thomas Garcia Carmona

10 June 2005

Este trabalho é iniciado apresentando os conceitos teóricos necessários para o bom entendimento do tema tratado, incluindo corrosão de armaduras, passivação, despassivação, vida útil e também conceitos de análise de riscos e teoria da confiabilidade. No terceiro capítulo é feita a revisão bibliográfica das variáveis que influem na carbonatação do concreto, apresentando um panorama do conhecimento atual sobre o tema, tanto no Brasil como no exterior. No quarto capítulo são apresentados e discutidos os modelos de previsão da carbonatação sendo também feitas comparações entre os resultados obtidos pelos modelos principais. No capítulo cinco é apresentado o trabalho experimental que objetiva contribuir com o conhecimento sobre a variabilidade da carbonatação e dos cobrimentos por meio de um estudo de caso real. A estrutura estudada foi o subsolo de um edifício residencial na zona central da cidade de São Paulo, no qual foram feitas diversas medidas de profundidade de carbonatação, cobrimentos de armaduras, concentração de CO2 ambiente e umidade relativa do ar. Os resultados foram tratados por meio de análise de variância e os valores de profundidade de carbonatação foram comparados com os valores previstos empregando modelos de previsão. Foi realizado o cálculo teórico da probabilidade de despassivação que foi comparada com a incidência real de despassivação observada. Os coeficientes de variação encontrados também foram comparados com os resultados de outras pesquisas atuais. É apresentado o desenvolvimento de um programa computacional para previsão do período de iniciação por métodos deterministas e probabilistas. / This work starts presenting the theoretical concepts needed for a good understanding of it’s contents, including corrosion of steel in concrete, passivation, despassivation, service life and concepts of risk analysis and reliability theory. In chapter three it’s discussed the several variables that have influence in concrete carbonation, presenting a general view of the knowledge concerning the topic in Brasil and other countries. Chapter four presents and discuss the prediction models of carbonation and comparisons are made between the results of the main models. In chapter five it is presented the experimental work that intends to contribute with the knowledge about the carbonation and concrete covers variability by means of a case study. The studied structure was the parking garage of a 30 years residential building, located in the central zone of São Paulo city in Brasil, in witch were made a several number of measurements of carbonation depth, concrete cover, CO2 concentration and air relative humidity. The collected data was analyzed using variance analysis and the values of carbonation depth were compared with that estimated using prediction models. The theoretical calculation of the despassivation probability was compared with the real despassivation incidence. The variation coefficients obtained were almost compared with the results of other recent investigations. It is still presented the development of a computer program for predicting the initiation period using deterministic and probabilistic methods.

Carbonatação

Corrosão

Despassivação

Durabilidade

Estruturas de concreto armado

Modelos de previsão

Vida útil

Carbonation

Corrosion

Despassivation

Durability

Prediction models

Reinforced concrete structures

Service life

Modelagem da carbonatação e previsão de vida útil de estruturas de concreto em ambiente urbano

Possan, Edna

January 2010

Este trabalho propõe um modelo matemático destinado à estimativa da profundidade de carbonatação e à previsão de vida útil de projeto de estruturas de concreto, envolvendo variáveis de entrada de fácil obtenção (como resistência à compressão, tipo de cimento, umidade relativa, entre outras). Com base no conhecimento de experts (grupo focal) criou-se o banco de dados que deu origem ao modelo, o qual considera as principais variáveis de influência na ação da carbonatação, incluindo: às características do concreto (resistência à compressão do concreto aos 28 dias, o tipo de cimento empregado, o teor de adição, quando houver); às condições de exposição (macro clima - ambiente interno ou externo, protegido ou não da chuva); e, às condições ambientais (umidade relativa média da região de exposição da estrutura e o teor de CO2 do ambiente). O modelo matemático proposto baseou-se no ajuste de dados considerando as leis físico-químicas pertinentes, o qual foi testado com dados de investigações experimentais realizadas por outros pesquisadores. Os resultados indicam que o mesmo representa a ação da carbonatação do concreto, apresentando potencial de generalização. Também foi empregado para a previsão de vida útil de projeto, com uma abordagem probabilística via Simulação de Monte Carlo (SMC) e Análise de confiabilidade, inserindo as variabilidades existentes no processo de degradação. Os resultados das simulações demonstram que o modelo pode ser empregado para estimativa de vida útil via processos estocásticos. O modelo foi desenvolvido essencialmente para servir como um suporte para a análise da durabilidade de estruturas de concreto armado em ambiente urbano, podendo ser empregado tanto para a estimativa da profundidade de carbonatação do concreto quanto para a previsão de vida útil de projeto de estruturas novas ou existentes, com abordagem determinística ou probabilística. As maiores vantagens do modelo são relacionadas à entrada de dados os quais podem ser obtidos com relativa facilidade, à facilidade de aplicação e ao potencial de generalização. / This research work proposes a mathematical model to estimate carbonation depths and the service life prediction of concrete structures using easily accessible input variables (such as compressive strength, cement type, relative humidity, etc.). The model was designed using a database which was developed using the knowledge of experts (focus group). This database assesses the main variables that affect carbonation in concrete (compressive strength at 28 days, type of cement, concentration of addition, if applicable), exposure conditions (macroclimate – indoors or outdoors, exposure to rain) and environmental conditions (mean relative humidity and carbon dioxide concentration of the area where the structure is located). The proposed model was tested using experimental data from other researchers and the results suggest that it accurately represents the effects of carbonation in concrete, with results that can be expanded to other structures. The mathematical model was also applied to forecasts of the service life of a project using the probabilistic approach of Monte Carlo methods (MC) and an analysis of reliability that accounted for the intrinsic variability found in decay processes. The results of the simulations show that the model can be used to estimate the service life of a project using a stochastic technique. The model was developed to serve mainly as a supporting feature in the assessment of durability in reinforced concrete structures in urban environments and can be applied both to estimates of carbonation depths and to the service life prediction of projects of new or existing structures, using deterministic or probabilistic approaches. The major benefits offered by this model are related to the input of data, which are readily available, its ease of use and its potential for application in general situations.

Carbonatação

Durabilidade do concreto

Modelos matemáticos

Método de Monte Carlo

Confiabilidade

Concrete carbonation

Life cycle

Service life prediction

Monte Carlo simulation

Reliability analysis

Focus group