Short continuously reinforced concrete pavement design recommendations based on non-destructive ultrasonic data and stress simulation. / Recomendações de projeto baseadas em dados ultrassônicos não destrutivos e simulação de tensões para pavimento de concreto continuamente armado de curta extensão.

Lucio Salles de Salles

19 May 2017

Four sections of continuously reinforced concrete pavement (CRCP) were constructed at the University of São Paulo campus in order to introduce this kind of pavement structure to Brazil\'s technical transportation community. Sections were designed as 50 m long concrete slab, short in comparison to traditional CRCP, in order to simulate bus stops and terminals - locations of critical interest for public infrastructure. The thesis presented herein concludes this research project initiated in 2010. As the initial goal of this study was the development of coherent, reliable and intuitive design recommendations for the use of CRCP technology in Brazil, a profound understating of its structural and performance peculiarities was needed. For that, the cracking process of the experimental CRCP sections was recorded over a span of seven years. Due to the sections\' short length and lack of anchorage, the experimental \"short\" CRCP presented a cracking behavior quite different than traditional CRCP. There were much less visible cracks than expected. To address this issue, a novel technology in ultrasonic non-destructive testing of concrete structures was applied. Through ultrasonic signal interpretation it was possible to discover several incipient non-visible cracks within the slabs - many of these became apparent on the slab surface in later crack surveys - and to characterize visible and non-visible cracks regarding crack depth. The updated crack map with non-visible cracks showed similarities with traditional CRCP. Additionally, the ultrasonic data analysis provided important information on thickness variation, reinforcement location and concrete condition that were applied in theoretical simulations (finite element software) of the short CRCP. Simulations were attempted considering different slab geometries, firstly with transverse cracks as joints with high load transfer efficiency (LTE) and secondly with a continuous slab without cracks or joints. The latter simulation was more accurate reaching a shift factor between field and simulated stresses in the order of 0.7 to 1.0. Deflection data and LTE analysis from cracks and panels in between cracks further attested the slab continuous behavior, which contradicts current CRCP design models and performance predictors. Furthermore, critical traffic and environmental loading conditions concerning Brazil\'s climate and bus traffic characteristics were investigated and related using a selected fatigue model resulting in design recommendations in a chart format for the short CRCP aimed at long-term projects for over 20 years of operation. The design chart was successfully applied to investigate three failures presented by the experimental short CRCP due to thickness deficiencies pointed out by the ultrasonic testing. / Quatro seções de pavimento de concreto continuamente armado (PCCA) foram construídas no campus da Universidade de São Paulo, com o objetivo de introduzir esta estrutura, de reconhecido sucesso internacional, à comunidade técnica de engenharia de transportes brasileira. As seções foram projetadas com uma placa de concreto de 50 m de extensão, curta em comparação ao PCCA tradicional, com a finalidade de simular paradas e terminais de ônibus - locais de grande interesse para a infraestrutura pública. A tese aqui apresentada conclui este projeto de pesquisa iniciado em 2010. Como o objetivo inicial deste estudo foi o desenvolvimento de recomendações de projeto coerentes, confiáveis e intuitivas para a utilização do PCCA no Brasil, foi necessário um profundo entendimento de suas peculiaridades estruturais e de desempenho. Para isso, o processo de fissuração das secções experimentais foi acompanhado durante sete anos. Devido à curta extensão e falta de ancoragem das seções, o PCCA \"curto\" apresentou um padrão de fissuração diferente do PCCA tradicional com muito menos fissuras visíveis na superfície do que o esperado. Para abordar esta questão, uma nova tecnologia ultrassônica para ensaios não destrutivos de estruturas de concreto foi aplicada. Pela interpretação do sinal de ultrassom, foi possível descobrir várias fissuras incipientes (não visíveis) dentro das placas - muitas dessas foram observadas na superfície da placa em levantamentos de fissuras posteriores - e caracterizar fissuras visíveis e não-visíveis quanto à profundidade da fissura. O mapa de fissuração atualizado com fissuras não visíveis mostrou semelhanças com PCCA tradicional. Além disso, a análise dos dados de ultrassom forneceu informações importantes sobre a variação da espessura, localização da armadura longitudinal e condição do concreto, que foram aplicados em simulações teóricas (software de elementos finitos) do PCCA curto. Simulações foram propostas considerando diferentes geometrias, primeiramente com fissuras transversais como juntas com alta eficiência de transferência de carga (LTE) e posteriormente com uma placa contínua, sem fissuras ou juntas. Esta última simulação foi mais precisa alcançando um fator de conversão entre tensões de campo e simuladas na ordem de 0,7 a 1,0. Dados de deflexão e análise de LTE em fissuras e placas entre fissuras atestaram novamente o comportamento contínuo das placas, o que vai em contradição com os modelos atuais de dimensionamento e de previsão de desempenho para o PCCA. Ademais, o tráfego crítico e condições de carga ambiental correspondentes ao clima e tráfego de ônibus típicos brasileiros foram investigados e relacionados usando um modelo de fadiga resultando em recomendações de projeto para o PCCA de curta extensão sendo direcionado para projetos de longo prazo para mais de 20 anos de operação. O gráfico de projeto foi aplicado com sucesso para investigar três falhas apresentadas pelo PCCA curto experimental devido a deficiências de espessura apontadas pelo teste ultrassônico.

Concreto

Pavimentos rígidos

Tensão estrutural

Bus stops

Cracks

Design

Short length

Stress simulation

Ultrasonic non-destructive testing

Effect of Portland cement concrete characteristics and constituents on thermal expansion

Siddiqui, Md Sarwar

15 September 2015

The coefficient of thermal expansion (CTE) is one of the major factors responsible for distresses in concrete pavements and structures. Continuously reinforced concrete pavements (CRCPs) in particular are highly susceptible to distresses caused by high CTE in concrete. CRCP is a popular choice across the U.S. and around the world for its long service life and minimal maintenance requirements. CRCP has been built in more than 35 states in the U.S., including Texas. In order to prevent CRCP distresses, the Texas Department of Transportation (TxDOT) has limited the CTE of CRCP concrete to a maximum of 5.5 x10-6 strain/oF (9.9 x10-6 strain/oC). Coarse aggregate sources that produce concrete with CTE higher than the allowable limit are no longer accepted in the TxDOT CRCP projects. Moreover, CTE is an important input in the Mechanistic-Empirical Pavement Design Guide (MEPDG). Small deviations in input CTE can affect the pavement thickness significantly in MEPDG designs. Therefore, accurate determination of concrete CTE is important, as it allows for enhanced concrete structure and pavement design as well as accurate screening of CRCP coarse aggregates. Moreover, optimizing the CTE of concrete according to a structure’s needs can reduce that structure’s cracking potential. This will result in significant savings in repair and rehabilitation costs and will improve the durability and longevity of concrete structures. This study found that the CTEs determined from saturated concrete samples were affected by the internal water pressure. As a result, the TxDOT method yielded higher values than did the American Association of State Highway and Transportation Officials (AASHTO) method. To further investigate the effect of internal water pressure, an analytical model was developed based on the poroelastic phenomenon of concrete. According to the model, porosity, permeability, and the rate of temperature change are the major factors that influence the internal water pressure development. Increasing the permeability of concrete can reduce the internal water pressure development and can thus improve the consistency of measured CTE values. Preconditioning concrete samples by subjecting them to several heating and cooling cycles prior to CTE testing and reducing the rate of temperature change improved the consistency of the CTE test results. Concrete CTE can be reduced by blending low-CTE aggregates with high-CTE aggregates and reducing the cement paste volume. Based on these findings, a concrete CTE optimization technique was developed that provides guidelines for the selection of concrete constituents to achieve target concrete CTE. A concrete proportioning technique was also developed to meet the need for CTE optimization. This concrete proportioning technique can use aggregate from any sources, irrespective of gradation, shape, and texture. The proposed technique has the potential to reduce the cement requirement without sacrificing performance and provides guidelines for multiple coarse and fine aggregate blends. / text

Coefficient of thermal expansion

CTE

Concrete

Poromechanics

CTE optimization

Internal water pressure

AASHTO

TxDOT

CRCP

Concrete pavement

MEPDG

Zero-stress temperature and Its implications for long-term performance of continuously reinforced concrete pavements

Yeon, Jung Heum, 1983-

30 January 2012

Continuously reinforced concrete pavement (CRCP) is a portland cement concrete (PCC) pavement structure with a continuous longitudinal steel layout. CRCP is forming a major portion of PCC roadway systems in the state of Texas due to its low life cycle cost, ease of maintenance, and durable nature. While the overall performance of CRCP is proven to be excellent, some performance problems are still found as a form of distresses such as punchout and spalling. The current pavement design guide states that these distresses are closely related with the early-age behavior characteristics of CRCP, and various measures are underway to develop to improve the long-term performance of CRCP in terms of initial material design and use, structural design, and quality control. Understanding the current issues that pavement engineers and researchers face, the primary objective of this dissertation research focuses on sound understanding of the early-age structural behavior characteristics of CRCP and its effect on the long-term performance to provide reliable design and analysis criteria for CRCP. To achieve this main objective, characterizing the early-age structural response in CRCP was a core task of this study. For this purpose, a zero-stress temperature (ZST), one of the design and construction variables considered to have most significant effects on CRCP behavior and performance, was evaluated. As a beginning point of the entire framework, a series of field experiments were conducted in four new PCC pavement construction projects in the state of Texas to evaluate the actual structural response in early-age CRCP since a laboratory experiment would have a critical limitation in simulating the restraint conditions that exist in actual CRCP. To expand this core task to various parametric categories, a computer-aided parametric simulation was performed using valid numerical models. Based on data sets obtained from the parametric investigation, a statistical model to quantify the early-age structural response of CRCP was proposed to implement in codes of practice and pavement design guides. A secondary task was to identify a correlation between the early-age structural response and the long-term performance of CRCP structures. Since the experimental and analytical investigations tended to provide quite localized information for the time-dependent behavior of CRCP, the overall performance of CRCP could not be properly identified solely based on those results. To overcome this limitation, extensive field condition surveys were performed in seven different old CRCP sections with known material and early-age temperature history to find the implications of early-age behavior characteristics on the long-term performance of CRCP from a macroscopic point of view. It is expected that this research effort will provide pavement engineers and researchers with useful information to understand the actual time-dependent behavior of CRCP and a solid foundation to improve the sustainability of CRCP structures. / text

Zero-stress temperature

Long-term performance

Early-age behavior

Temperature

Relative humidity

Stress

Análise do comportamento de pavimento experimental de concreto continuamente armado de curta extensão. / Performance analysis of short experimental continuously reinforced concrete pavement.

Lucio Salles de Salles

18 February 2014

O pavimento de concreto continuamente armado (PCCA) é caracterizado pela presença de uma alta taxa de armadura longitudinal localizada acima do meio da placa; essa armadura possibilita ao pavimento uma placa de concreto sem juntas. Diferentemente do pavimento de concreto simples, no PCCA não há uma indução da fissuração; as fissuras ocorrem de maneira aleatória, porém são mantidas fortemente apertadas pela armadura longitudinal proporcionando uma estrutura de alta durabilidade exigindo o mínimo de manutenção. Perante tais benefícios, decidiu-se construir quatro seções experimentais deste pavimento no campus da Universidade de São Paulo. A maior diferença entre o PCCA experimental e aqueles encontrados na literatura técnica é a extensão; com o intuito de simular uma parada de ônibus, cada seção possui 50 metros de comprimento, curtas em comparação com os até 400 metros de comprimento encontrados em PCCA tradicionais. Para analisar o comportamento do pavimento foram esquematizados três estudos de desempenho: levantamentos de fissuras; testes de deformação com provas de carga dinâmicas (PCD) com um caminhão carregado; e testes de deflexões com o Falling Weight Deflectometer (FWD). A análise da fissuração mostra um comportamento bastante distinto daquele encontrado em PCCA tradicionais; a curta extensão, aliada à falta de ancoragem da placa, resultou em uma fissuração bastante tardia e em um elevado espaçamento entre fissuras. A seção 1, não apresenta, até esta data (dezembro de 2013), nenhuma fissura. A pouca fissuração sugeriu a hipótese de que as fissuras estariam invisíveis a olho nu em função do forte efeito de amarração das barras longitudinais. Entretanto, apesar de tais diferenças, o estudo das tensões através das deformações obtidas pelos strain gauges nas PCD apontam um desempenho estrutural adequado do pavimento; as tensões de tração na flexão resultaram em valores bastante inferiores à resistência do concreto, assegurando a qualidade da placa. Além destas afirmações, as PCD possibilitaram uma série de análises de tensões com configurações de carregamento diferentes. O estudo de deflexões mostrou que nas proximidades da borda longitudinal do pavimento, as deflexões são maiores devido à falta de ancoragem do sistema; no centro as deflexões foram típicas de pavimentos de concreto. A retroanálise das bacias de deflexão resultou em valores de módulo de elasticidade e módulo de reação do subleito baixos próximos à borda, reforçando o impacto da falta de ancoragem. A análise da eficiência de transferência de carga entre fissuras mostrou um desempenho altamente satisfatório de todas as fissuras, inclusive aquelas mais próximas das bordas, o que, novamente, certifica a integridade estrutural da placa. / The continuously reinforced concrete pavement (CRCP) is characterized by the presence of a high longitudinal reinforcement percentage located above the slabs middle; this steel allows a concrete slab without joints. Unlike jointed plain concrete pavements, the CRCP has no cracking induction; the cracks occur randomly, but are held strongly tight by the longitudinal steel, thus, providing a highly durable structure that requires minimal maintenance. Given these benefits, it was decided to build four experimental sections of this pavement on the University of São Paulo\'s campus. The biggest difference between the experimental CRCP and those found in the technical literature is the length; in order to simulate a bus stop, each section is 50 meters long, short compared to traditional PCCA up to 400 meters long. To analyze the behavior of the pavement, three performance studies were carried out: cracks surveys; strain tests with dynamic load tests (DLT) with a loaded truck; and Falling Weight Deflectometer (FWD) deflection testing. The analysis shows that the cracking pattern is quite distinct from that found in traditional PCCA, the short extension, coupled with the slabs lack of anchorage, resulted in a late cracking development and in large crack spacing. Section 1, has yet to develop any cracks. The low cracking suggested the hypothesis that the cracks were invisible to the naked eye due to the longitudinal bars strong binding effect. However, despite these differences, the stress study through strains obtained by strain gauges in DLT indicate an appropriate structural performance of the pavement, the flexural tensile stresses resulted in values well below the concretes strength, ensuring the slabs quality. Also, the DLT enable a series of stresses analysis with different load configurations. The deflection study showed that in the longitudinal edges vicinity, deflections are higher due to lack of any anchorage system; the center deflections are typical concrete pavement ones. The deflection basins backcalculation resulted in values of elasticity modulus of concrete and modulus of subgrade reaction lower near the edge, reinforcing the impact of the lack of anchorage. The analysis of the load transfer efficiency across cracks showed highly satisfactory performance of all cracks, including those nearest to the edge, which certifies the structural integrity of the slab.

Curta extensão

Deflexões

Desempenho

Fissuração

Tensões

Cracking

Deflections

Performance

Short length

Stresses

Correlation of Damage Rating Index in Concrete Pavements

Qutail, Ali

06 May 2021

No description available.

Civil Engineering

Alkali Silica Reaction in Concrete

Index in Concrete Pavements

Uniaxial and Biaxial Restraint in Concrete Pavement Undergoing Alkali-Silica Reaction

Thapa, Romit

09 August 2018

No description available.

Civil Engineering

Materials Science

Aalkali-silica reaction

ASR

Concrete pavement

Confining Stress

Damage Rating Index

DRI Mapping

Characterization of cracks on ultra thin continuously reinforced concrete pavements

Gerber, Johan Andries Kritzinger

03 1900

Thesis (MScEng (Civil Engineering))--University of Stellenbosch, 2011. / ENGLISH ABSTRACT: The southbound screener lane of the Heidelberg Traffic Control Centre received structural improvements by means of an ultra thin continuously reinforced concrete pavement (UTCRCP) overlay. This experimental overlay forms part of the South African National Roads Agency Limited’s innovative highway repair strategy on existing pavements that have exceeded design life. The primary objective of this study was to characterize the UTCRCP overlay with regard to crack spacing formation under accelerated pavement testing (APT). Characterization comprised of empirical modelling techniques, statistical analysis, non destructive testing and software simulations. Pavement deflection responses were empirically and linear elastically converted to input parameters. These parameters were used in the mean crack spacing prediction model of the Mechanistic-Empirical Pavement Design Guide (M-E PDG). Observed cracking under APT was recorded and analyzed by means of descriptive statistics. The outcome of the M-E PDG’s mean crack spacing and the statistics of the observed cracking were evaluated against cncPave simulations. Initial shrinkage crack formations ranged from 500 mm to 900 mm, with a mean spacing of 695 mm. Subsequent secondary cracking reduced the segments, delineated by initial cracking, to intervals consisting of 100 mm to 350 mm. A statistical analysis of the observed cracking indicated that traffic had little effect on the transverse crack spacing formation. The observed cracks yielded a mean spacing of 296 mm, compared to the 186 mm of the M-E PDG mean crack spacing calculation. cncPave simulations indicated that the expected range of cracking would fall between 237 mm and 350 mm with a probability of 50% that crack spacing would exceed 265 mm. The 50th percentile of the observed cracks resulted in a spacing of 233 mm. The APT project was limited to a single test section. No pavement failures occurred during the APT project. A total of 2.8 million 80 kN load repetitions were applied to the UTCRCP. However circular crack formations regarded as a punchout development have formed on the UTCRCP test section. Circular cracks formed around weaknesses in the pavement system. The prediction of these punchout formations incorporates the mean crack spacing result. Occurrence of mean crack spacing forms part of a crack spacing distribution defined by a range. Therefore designing a punchout prediction model for UTCRCP should include the characteristics and range of the crack pattern and not merely the mean crack spacing value. Key Words: UTCRCP, APT, Mean Crack Spacing, Punchout, Descriptive Statistics, cncPave, M-E PDG, Transverse Cracks, Dense Liquid Foundation, Elastic Solid Foundation. / AFRIKAANSE OPSOMMING: Die suidwaartse moniteerings laan van die Heidelberg Verkeersbeheer Sentrum, het strukturele verbetering ondergaan deur die konstruksie van ‘n ultradun aaneen-gewapende betonplaveisel (UDAGBP) wat dien as ‘n deklaag. Hierdie eksperimentele deklaag is deel van die Suid-Afrikaanse Nasionale Paaie Aggentskap Beperk (SANRAL) se vernuftige deurpadherstelstrategie vir bestaande deurpaaie waarvan die ontwerplewe verstryk het. Die primêre doel van hierdie studie is om die UDAGBP te karakteriseer, met betrekking tot kraakspasiëring, deur middel van Versnelde Plaveisel Toetsing (VPT). Die karakteriseringsproses het bestaan uit empiriese moduleringstegnieke, statistiese ontleding, nie-destruktiewe toetsmetodologieë en sagtewaresimulasies. Die plaveiseldefleksiegedrag is empiries en linieêr elasties ontleed en omgeskakel na invoerparameters. Hierdie parameters is gebruik in die peilingsmodel vir gemiddelde kraakspasiëring van die Meganisties-Empiries Plaveisel Ontwerpsgids (M-E POG). Waargenome kraakspasiëring na die afloop van VPT is opgeteken en deur middel van beskrywende statistiek ontleed. Die resultate van die M-E POG se gemiddelde kraakspasiëring en die statistiese ontleding van die waargenome krake is geëvalueer teenoor cncPave simulasies. Aanvanklike krimpingskrake het gevorm met wisselende kraakspasiëring tussen 500 mm en 900 mm met ‘n gemiddelde spasiëring van 695 mm. Daaropvolgende krake het die aanvanklike segmente, wat gevorm het tydens die aanvanklike krimpingskrake, verkort na intervalle van 100 mm tot 350 mm. ‘n Statistiese ontleding van die waargeneemde krake het aangedui dat verkeer weinig ‘n aandeel het in die dwarskraak-vormingsproses. Die waargenome krake het ‘n gemiddelde spasiëring van 296 mm in vergelyking met 186 mm van die M-E POG se gemiddelde kraakspasiëring berekening. cncPave simulasies het aangedui dat die verwagte kraakspasiëringsgrense tussen 237 mm en 350 mm is en ‘n 50% waarskynlikheid dat die kraakspasiëring meer as 265 mm is. Die VPT projek is beperk tot ‘n enkele toetsseksie. Geen plaveiselfalings is waargeneem gedurende die VPT projek nie. In totaal was 2.8 miljoen as-lasherhalings aangewend op die UDAGBP. Daar het egeter sirkelvormige kraakformasies, wat beskou word as ponsswigting, ontwikkel op die UDAGBP toetsseksie. Sirkelvormige kraakpatrone het gevorm rondom swak plekke in die plaveisel. Die peilingsmodelle van hierdie ponsswigting maak gebruik van die gimiddelde kraakspasiëringsresultaat. Die verskynsel van gemiddelde kraakspasiëring in hierdie studie is deel van ‘n kraakspasiëringsverdeling, gedefinieerd deur ‘n spasiëringsgrens. Daarom moet die kraakspasiëringskarakteristieke en spasiëringsgrense in ag geneem word in die ontwerpsproses van ‘n UDAGBP ponsswigting-peilings-model, nie slegs die waarde van die gemiddelde kraakspasiëring nie. Sleutel woorde: UDAGBP, VPT, Gemiddelde Kraakspasiëring, Ponsswigting, Beskrywende Statistiek, cncPave, M-E POG, Transversale Krake, Digte Vloeistof Fondasie, Elasties- Soliede Fondasie.

Concrete pavements

Pavement cracks

Dissertations -- Civil engineering

Theses -- Civil engineering

Pavements, Reinforced concrete

Concrete -- Cracking

Comportamento de pavimentos de concreto estruturalmente armados sob carregamentos estáticos e repetidos / Structurally reinforced concrete pavement behavior under static and cyclic loads

Maggi, Patrícia Lizi de Oliveira

05 April 2004

Apresenta-se um trabalho numérico e experimental, com o objetivo de estudar o comportamento dos pavimentos de concreto estruturalmente armados, quando submetidos a forças verticais estáticas e repetidas. Avalia-se a contribuição da armadura de flexão, na resistência de placas de concreto apoiadas sobre meio elástico. Verifica-se experimentalmente o modo de ruína de placas submetidas a carregamento monotônico e a carregamento repetido, com e sem armadura, e acompanha-se o desenvolvimento das fissuras no concreto e das deformações no aço. Comparam-se os resultados obtidos, com as recomendações da NBR 6118:2003, para o dimensionamento de estruturas submetidas à fadiga. É desenvolvido modelo numérico capaz de representar a interface do solo com a placa do pavimento, a fissuração do concreto, a contribuição da armadura e o comportamento pós-fissuração. Com auxílio do modelo numérico, validado a partir dos resultados experimentais, estuda-se a influência de alguns parâmetros importantes para o dimensionamento dos pavimentos, tais como: capacidade de suporte da fundação, espessura das placas, área de aço, dimensões das placas em planta, posição de aplicação da força e presença de juntas de transferência de deslocamento. Os resultados experimentais mostram uma significativa contribuição da armadura positiva na resistência de placas isoladas sob forças verticais centradas. Verificou-se que as forças repetidas provocam fadiga do aço e que o número de ciclos depende da deformação provocada na armadura. A partir dos resultados são traçadas diretrizes para o dimensionamento, no qual devem ser considerados os momentos positivos e os negativos, e deve ser feita a verificação da fadiga do concreto e da armadura / A numerical and experimental study on the behavior of structurally reinforced concrete pavement under vertical static and repeated load is presented. The contribution of bending reinforcement to the strength of concrete slab is assessed. It is experimentally verified the fracture of reinforced and plain concrete slabs under monotonic loads and under cyclic loads. The concrete cracking and the strain on steel are monitored. The results are compared to the brazilian code recommendations to the design of structures under fatigue. A numerical model that represents the soil-slab interface, the concrete cracking, the reinforcement contribution and the tension stiffening behavior is developed. Some important parameters to the pavement design are analyzed using this finite element model, whose reliability was verified to experimental results. These parameters are: the soil capacity; the slab thickness; reinforcement ratio; slab dimensions; load positions; and joints conditions. The tests data show an important contribution of the positive reinforcement on the strength of an isolated slab with centered load. It has been verified the fatigue of the steel. The number of cycles depends on the reinforcement strain. The results are used to propose some directions to the design. The positive and negative bending moments have to be considered and the fatigue on the concrete and on the reinforcement has to be verified

carregamento repetido

cyclic tests

fadiga

fatigue

floor

modelagem numérica

numerical model

pavement

pavimentação

pavimento

pavimento de concreto armado

piso

reinforced concrete pavement

Desenvolvimento de técnicas para caracterização de concreto seco utilizado na fabricação de peças de concreto para pavimentação intertravada. / Development of techniques to characterize dry concrete used on the precast paving blocks for interlocking pavement.

Marchioni, Mariana Lobo

03 October 2012

O concreto seco, também chamado de concreto sem abatimento (no-slump) é utilizado na produção de artefatos de cimento, como por exemplo em peças de concreto para pavimentação, blocos para alvenaria e tubos de concreto e ainda como camada de subbase de pavimentos com a técnica de concreto compactado a rolo. A técnica de conformar concretos com reduzido teor de umidade através de equipamentos que aplicam simultaneamente compressão e vibração é amplamente utilizada na produção de artefatos de concreto, como as peças de concreto para pavimentação intertravada. Para as peças de concreto o desafio é ainda maior, pois as especificações de resistência característica à compressão podem chegar a 50 MPa. A principal característica do concreto seco é o baixo teor de água e elevada coesão, necessitando de energia de compactação e vibração para a eliminação de vazios e o concreto assumir a forma desejada. Esta técnica permite a desfôrma imediata, que garante elevada produtividade e consequente diminuição dos custos de produção. Já a compactação permite obter componentes de concreto com menor consumo de cimento se comparados ao concreto plástico. Diferentemente de toda literatura e metodologias de dosagem encontradas para o concreto plástico, o concreto seco encontra barreiras técnicas para a aplicação de metodologias que otimizem sua dosagem, em formulações empíricas que não levam em conta de forma adequada as características dos agregados, características estas diretamente ligadas à compacidade das peças, que por sua vez tem grande influência nas características do produto final. Além disto, há poucos estudos do comportamento reológico do concreto seco, que influenciam a fluidez e coesão da do concreto e que irão determinar a produtividade e qualidade da produção. Dessa forma, neste trabalho é apresentado uma metodologia para caracterização do concreto seco nos estados fresco e endurecido que permite o desenvolvimento sistemático de formulações com maior facilidade de compactação e que também resulte na melhoria do desempenho das peças e diminuindo a necessidade de testes em escala real. O método se baseia em produzir em laboratório um corpo de prova que reproduz as condições de moldagem de uma vibroprensa, eliminando-se a variável da vibração e padronizando as condições de compressão. Nos corpos-de-prova são avaliadas características nos estados fresco e endurecido, além de aspectos do comportamento reológico do concreto, através de técnicas de reologia compressiva. Para aferir a metodologia foram utilizadas amostras de referência produzidas em uma fábrica de peças de concreto. Com a metodologia proposta, foi possível atingir 90% da resistência mecânica das peças produzidas em uma vibroprensa de alta compactação. Sendo assim esta metodologia poderá ser utilizada em estudos de dosagem de concreto seco, portanto o trabalho desenvolvido é indicado na utilização de dosagens de concreto seco, obtendo-se maior ecoeficiência, a medida que otimiza o consumo de cimento da mistura e facilita o estudo de dosagem de materiais alternativos em substituição aos agregados convencionais. / The dry concrete, also known as earth moist concrete or no-slump concrete, is most used to manufacture precast concrete products, as paving blocks, masonry blocks and concrete tubes, and also in rolled compacted concrete pavement. Its most important property is the low water content, and it requires mechanical equipment for its compactation. Paving blocks are normally manufactured using vibrocompression equipment, which at the same time applies both compaction and vibration resulting in paving blocks with high durability and mechanical resistance. Even though this technique is highly used it still lacks studies on some important steps of the manufacturing process. The mix design techniques are mostly empirical and dont deeply consider the aggregate characteristics, that are connected with its compacity and, by that, the characteristics of the paving block. Also, there are only a few studies of the rheology characteristics of dry concrete, which relates with de manufacturing process and the easiness that the mix is compacted. So, the object of this study is to develop a dry concrete characterization methodology that allows the systematic development of mix designs that are easily compacted and also improves the performance of the paving blocks.

Concreto seco

Concreto sem abatimento

Dry concrete

Interlocking concrete pavement

No-slump concrete

Pavimento intertravado

Paving blocks

Peças de concreto

Reologia compressiva

Estudo sobre a aplicabilidade do processo de inventário funcional de pavimentos rígidos com o emprego do equipamento Pavement Scanner e validação de resultados. / Research on the applicability of the functional inventory of rigid pavements with the use of Pavement Scanner equipment and results validation.

Scabello, Daniel Torres

20 April 2018

O gerenciamento de uma malha rodoviária engloba avaliações constantes das condições estruturais e, principalmente, funcionais. Assim sendo, uma forma de coleta automatizada, realizada em velocidades de tráfego, em que a influência humana possa ser desconsiderada, está em desenvolvimento na engenharia rodoviária brasileira, assim como é visto internacionalmente. O presente trabalho tem como objetivo a contribuição para o processo de avaliação funcional de pavimentos através do estudo sobre a aplicabilidade do processo de inventário funcional de pavimentos rígidos com o emprego do equipamento Pavement Scanner. Para tanto, após a revisão bibliográfica sobre a sistemática de inventário de pavimentos rígidos e também sobre o equipamento Pavement Scanner, seções testes foram definidas e avaliadas de acordo com o método tradicional de levantamento da superfície do pavimento (ICP - DNIT 062/PRO, DNIT 060/PRO), o método volumétrico tradicional de mancha de areia para avaliação de macrotextura (ASTM E 965/96), através de imageamento com análise de imagens obtidas no trecho e sob a utilização do equipamento Pavement Scanner. Com os resultados foi realizada uma análise estatística destas técnicas utilizadas, demonstrando a viabilidade de utilização do equipamento e do procedimento de análise adotado. / The management of a road network encompasses constant assessments of structural conditions and, above all, functional conditions. Thus, a form of automated survey, carried out at traffic speeds, in which human influence can be unconsidered, is under development in Brazilian road engineering, as it is seen internationally. This present work aims to contribute to the process of functional assessment of pavements through the study of applicability of the functional inventory process of rigid pavements with the use of Pavement Scanner equipment. In order to do so, after the literature review of rigid pavement inventory and Pavement Scanner equipment, test sections were defined and evaluated according to the traditional method of surface survey (ICP - DNIT 062 / PRO, DNIT 060 / PRO), the traditional sand patch volumetric method for the evaluation of macrotexture (ASTM E 965/96), through imaging analysis from the test sections and under the use of Pavement Scanner equipment. With the results, a statistical analysis of these techniques were performed, demonstrating the feasibility of using the equipment and the analysis procedure adopted.

Cimento Portland

Concrete pavement distresses

Equipment for functional assessment

Functional evaluation of pavements

Macrotexture

Pavement distresses

Pavement Scanner

Pavimentação de concreto (Defeito)

Pavimentos rígidos

Portland Cement