Evaluating the time-dependent deformations and bond characteristics of a self-consolidating concrete mix and the implication for pretensioned[sic] bridge applications

Larson, Kyle Hatch

January 1900

Doctor of Philosophy / Department of Civil Engineering / Robert J. Peterman / Results of an extensive experimental program conducted to determine the material, bond characteristics, and time-dependent deformations of a proposed self-consolidating concrete (SCC) mixture for bridge girders are presented. This research program was completed in a three-step process. The first phase consisted of 15 full-scale, pretensioned SCC flexural specimens that were tested to evaluate their transfer and development lengths. These specimens included both single-strand and multiple-strand beams, as well as specimens designed to evaluate the so-called “top-strand" effect. The top-strand specimens, with more than 20 inches of concrete below the strand, were tested to evaluate the current American Association of State Highway Officials requirement of a 30% increase development length when the concrete below the strand is more than 12 inches. Strand end-slip measurements, used to estimate transfer lengths, indicated the proposed SCC mixture meets ACI and AASHTO requirements. In addition, flexural tests confirmed the proposed SCC mixture also meets current code requirements for development length. The second step was to evaluate the elastic shortening, creep, and shrinkage properties of the proposed SCC mixture for bridge girders. Four bridge girders with an inverted-T profile were used to measure these time-dependent deformations. In two of the specimens, the strands were tensioned to 75% of ultimate tensile strength (representing a girder that would be put into service). Strands of the other two specimens were left untensioned to evaluate shrinkage effect of the concrete alone. The shrinkage was then subtracted from the fully tensioned specimens and elastic shortening and creep were isolated after relaxation losses were calculated from code expressions. In addition, the fully tensioned specimens were used to determine transfer lengths of the prestressing strand. The final step in the program was to record strain measurements in actual bridge girders used in the field. Elastic shortening, creep, and shrinkage prestress loss results of the proposed SCC mixture were compared with current design equations. Instrumentation of seven pretensioned girders in a five-span bridge located in Cowley County, Kansas, was used to measure time-dependent deformations. Three of these girders utilized SCC, while the other four were cast with conventional concrete.

SCC

Transfer Length

Development Length

Time-Dependent Deformations

Bridge Monitoring

Engineering, Civil (0543)

Time Dependent Deformations in Normal And Heavy Density Concrete

Reddy, D Harinadha

06 1900

Time dependent deformations in concrete, both creep and shrinkage, play a critical role in prestressed concrete structures, such as bridge girders, nuclear containment vessels, etc. These strains result in lossess, through release of prestress, and thereby influence the safety of these structures. The present study comprises of an experimental and analytical program to assess the levels of creep and shrinkage in normal and heavy density concrete. The experimental program includes tests on creep using standard cylinder specimen, while shrinkage studies have been conducted using prism specimen, both under controlled environmental conditions. The experimental results suggest that creep and shrinkage strains are higher in heavy density concrete than in normal concrete. This may be attributed to the relatively smaller pore structure of heavy density concrete, that results in larger availability of free water and a relatively slower hydration process in comparison to normal concrete. While there is some scatter in the results, creep strains decrease with age of loading and both creep and shrinkage strains are smaller when the relative humidity is higher. Statistical model reported in the literature for normal concrete is able to predict the test results for both normal and heavy density concrete quite well. Long term predictions of creep and shrinkage using this model, accounting for uncertainties, is also projected and shown to predict some long term measured results not used in the model calibration. The long term predictions are sensitive to the initial data used in model calibration.

Concrete - Deformations

Concrete - Creep and Shrinkage

Concrete - Time Dependent Deformations

Heavy Density Concrete

Structural Engineering

Reforço de vigas de concreto armado submetidas a pré-carregamento e ações de longa duração com aplicação de concretos de alta resistência e concretos com fibras de aço / Strengthening of reinforced concrete beams subjected to preloading forces and long-term loads: application of high strength concrete and steel fiber reinforced concrete

Reis, Andréa Prado Abreu

24 October 2003

Neste trabalho estudou-se o reforço de vigas T de concreto armado tanto por meio de adição de armadura longitudinal ao bordo tracionado envolvida por um material compósito (argamassa com fibras curtas de aço), quanto pela aplicação de uma capa de pequena espessura de microconcreto de alta resistência ao bordo comprimido. Para estudar as possibilidades da aplicação prática destas duas técnicas de reforço avaliou-se o comportamento das vigas reabilitadas verificando a influência: da atuação de um pré-carregamento durante a execução do reforço, das deformações diferidas diferenciais (fluência e retração) existentes entre os materiais novos e antigos e, dos mecanismos de resistência mobilizados na transmissão de esforços na junta - formada pela ligação do substrato ao concreto do reforço - ou entre as barras de aço tracionadas preexistentes e adicionadas em função da ausência de estribos envolvendo-as. Para redimensionar as peças reforçadas no bordo tracionado foram realizados ensaios complementares para identificar, dentre as várias fibras disponíveis comercialmente, qual a que proporcionaria ao material compósito, um confinamento suficiente que evitasse a ruptura prematura da viga pela tendência de deslizamento relativo entre as barras de aço tracionadas devida à ausência de estribos neste local. Para redimensionar as peças reforçadas no bordo comprimido realizou-se ensaios complementares para determinar as propriedades viscoelásticas dos materiais usados no substrato e no reforço, tornando possível estimar as descontinuidades geradas nos estados de tensão e deformação ao longo do tempo já que tais materiais são moldados e submetidos a carregamentos em idades distintas. Os resultados dos ensaios das vigas reforçadas de seção T foram analisados e comparados com previsões teóricas feitas a partir da adaptação de métodos analíticos convencionais recomendados por norma para estruturas novas, e a partir de simulações numéricas usando um programa computacional baseado no método dos elementos finitos. Do estudo realizado foi possível: comprovar a eficiência das técnicas de reforço propostas estando as peças submetidas ou não a um pré-carregamento durante a execução da intervenção, compatibilizar alguns dos conhecimentos teóricos existentes a fim de poder usá-los na análise teórica das vigas reabilitadas, além de reunir uma série de informações úteis que podem ser exploradas na definição de estratégias e procedimentos de projeto de estruturas reabilitadas semelhantes / This paper reports on the results of a study about the behavior of reinforced concrete T-beams rehabilitated using two different techniques. The first technique consists of the addition of longitudinal reinforcement embedded in a steel fiber reinforced highperformance mortar at the bottom face of the member. The second technique consists of rehabilitation by adding a thin overlay of high-strength concrete to the compression zone. The parameters analyzed to verify the possibilities of practical applications of these techniques were: the effect of a pre-loading acting on the beams during their rehabilitation, the differential time-dependent deformations (creep and shrinkage) between the new concrete and existing base, the mechanisms of resistance mobilized along the interface formed by old and new concrete or between pre-existent steel bars and added steel bars that are not involved by stirrups. Previous tests were carried out to make it possible to redesign the intervention adequately. Theses tests yield useful information about which type and volume of steel fibers need to be added to composite mortar to avoid the premature rupture of the strengthened beam caused by relative slipping between the layers of steel tensioned bars. These tests also give information about the viscoelastic properties of the materials used to manufacture the T-beams. The test results were analyzed and compared with the results of analytic models and numeric models based on the method of the finite elements. Based on this study, it can be stated that the proposed techniques are really efficient even if the beams are submitted to a pre-loading during the process of rehabilitation. Also, existing theoretical knowledge was organized to support the theoretical analysis of the rehabilitated beams, besides gathering useful information that can be explored in the definition of strategies and procedures of similar projects of rehabilitated structures

composite elements

deformações diferidas

fibras de aço

long-term loading

peças compostas

pré-carregamento

pre-loading

reabilitação

reforço

rehabilitation

reinforced concrete beams

steel fibers

strengthening

time-dependent deformations

vigas de concreto armado

Reforço de vigas de concreto armado submetidas a pré-carregamento e ações de longa duração com aplicação de concretos de alta resistência e concretos com fibras de aço / Strengthening of reinforced concrete beams subjected to preloading forces and long-term loads: application of high strength concrete and steel fiber reinforced concrete

Andréa Prado Abreu Reis

24 October 2003

Neste trabalho estudou-se o reforço de vigas T de concreto armado tanto por meio de adição de armadura longitudinal ao bordo tracionado envolvida por um material compósito (argamassa com fibras curtas de aço), quanto pela aplicação de uma capa de pequena espessura de microconcreto de alta resistência ao bordo comprimido. Para estudar as possibilidades da aplicação prática destas duas técnicas de reforço avaliou-se o comportamento das vigas reabilitadas verificando a influência: da atuação de um pré-carregamento durante a execução do reforço, das deformações diferidas diferenciais (fluência e retração) existentes entre os materiais novos e antigos e, dos mecanismos de resistência mobilizados na transmissão de esforços na junta - formada pela ligação do substrato ao concreto do reforço - ou entre as barras de aço tracionadas preexistentes e adicionadas em função da ausência de estribos envolvendo-as. Para redimensionar as peças reforçadas no bordo tracionado foram realizados ensaios complementares para identificar, dentre as várias fibras disponíveis comercialmente, qual a que proporcionaria ao material compósito, um confinamento suficiente que evitasse a ruptura prematura da viga pela tendência de deslizamento relativo entre as barras de aço tracionadas devida à ausência de estribos neste local. Para redimensionar as peças reforçadas no bordo comprimido realizou-se ensaios complementares para determinar as propriedades viscoelásticas dos materiais usados no substrato e no reforço, tornando possível estimar as descontinuidades geradas nos estados de tensão e deformação ao longo do tempo já que tais materiais são moldados e submetidos a carregamentos em idades distintas. Os resultados dos ensaios das vigas reforçadas de seção T foram analisados e comparados com previsões teóricas feitas a partir da adaptação de métodos analíticos convencionais recomendados por norma para estruturas novas, e a partir de simulações numéricas usando um programa computacional baseado no método dos elementos finitos. Do estudo realizado foi possível: comprovar a eficiência das técnicas de reforço propostas estando as peças submetidas ou não a um pré-carregamento durante a execução da intervenção, compatibilizar alguns dos conhecimentos teóricos existentes a fim de poder usá-los na análise teórica das vigas reabilitadas, além de reunir uma série de informações úteis que podem ser exploradas na definição de estratégias e procedimentos de projeto de estruturas reabilitadas semelhantes / This paper reports on the results of a study about the behavior of reinforced concrete T-beams rehabilitated using two different techniques. The first technique consists of the addition of longitudinal reinforcement embedded in a steel fiber reinforced highperformance mortar at the bottom face of the member. The second technique consists of rehabilitation by adding a thin overlay of high-strength concrete to the compression zone. The parameters analyzed to verify the possibilities of practical applications of these techniques were: the effect of a pre-loading acting on the beams during their rehabilitation, the differential time-dependent deformations (creep and shrinkage) between the new concrete and existing base, the mechanisms of resistance mobilized along the interface formed by old and new concrete or between pre-existent steel bars and added steel bars that are not involved by stirrups. Previous tests were carried out to make it possible to redesign the intervention adequately. Theses tests yield useful information about which type and volume of steel fibers need to be added to composite mortar to avoid the premature rupture of the strengthened beam caused by relative slipping between the layers of steel tensioned bars. These tests also give information about the viscoelastic properties of the materials used to manufacture the T-beams. The test results were analyzed and compared with the results of analytic models and numeric models based on the method of the finite elements. Based on this study, it can be stated that the proposed techniques are really efficient even if the beams are submitted to a pre-loading during the process of rehabilitation. Also, existing theoretical knowledge was organized to support the theoretical analysis of the rehabilitated beams, besides gathering useful information that can be explored in the definition of strategies and procedures of similar projects of rehabilitated structures

deformações diferidas

fibras de aço

peças compostas

pré-carregamento

reabilitação

reforço

vigas de concreto armado

composite elements

long-term loading

pre-loading

rehabilitation

reinforced concrete beams

steel fibers

strengthening

time-dependent deformations