Development of Concrete Shrinkage Performance Specifications

Mokarem, David W.

10 May 2002

During its service life, concrete experiences volume changes. One of the types of deformation experienced by concrete is shrinkage. The four main types of shrinkage associated with concrete are plastic, autogeneous, carbonation and drying shrinkage. The volume changes in concrete due to shrinkage can lead to the cracking of the concrete. In the case of reinforced concrete, the cracking may produce a direct path for chloride ions to reach the reinforcing steel. Once chloride ions reach the steel surface, the steel will corrode, which itself can cause cracking, spalling, and delamination of the concrete. The development of concrete shrinkage performance specifications that limit the amount of drying shrinkage for concrete mixtures typically used by the Virginia Department of Transportation (VDOT) were assessed. Five existing shrinkage prediction models were also assessed to determine the accuracy and precision of each model as it pertains to the VDOT mixtures used in this study. The five models assessed were the ACI 209 Code Model, Bazant B3 Model, CEB90 Code Model, Gardner/Lockman Model, and the Sakata Model. The percentage length change limits for the portland cement concrete mixtures were 0.0300 at 28 days, and 0.0400 at 90 days. For the supplemental cementitious material mixtures, the percentage length change limits were 0.0400 at 28 days, and 0.0500 at 90 days. The CEB90 Code model performed best for the portland cement concrete mixtures, while the Gardner/Lockman Model performed best for the supplemental cementitious material mixtures. / Ph. D.

drying shrinkage

unrestrained shrinkage

restrained shrinkage

Long-term drying shrinkage of self-compacting concrete: experimental and analytical investigations

Abdalhmid, Jamila M., Ashour, Ashraf, Sheehan, Therese

18 January 2019

Yes / The present study investigated long-term drying shrinkage strains of self-compacting concrete (SCCs). For all SCCs mixes, Portland cement was replaced with 0–60% of fly ash (FA), fine and course aggregates were kept constant with 890 kg/m3 and 780 kg/m3, respectively. Two different water binder ratios of 0.44 and 0.33 were examined for both SCCs and normal concrete (NCs). Fresh properties of SCCs such as filling ability, passing ability, viscosity and resistance to segregation and hardened properties such as compressive and flexural strengths, water absorption and density of SCCs and NCs were also determined. Experimental results of drying shrinkage were compared to five existing models, namely the ACI 209R-92 model, BSEN-92 model, ACI 209R-92 (Huo) model, B3 model, and GL2000. To assess the quality of predictive models, the influence of various parameters (compressive strength, cement content, water content and relative humidity) effecting on the drying shrinkage strain as considered by the models are studied. The results showed that, using up to 60% of FA as cement replacement can produce SCC with a compressive strength as high as 30 MPa and low drying shrinkage strain. SCCs long-term drying shrinkage from 356 to 1000 days was higher than NCs. ACI 209R-92 model provided a better prediction of drying shrinkage compared with the other models. / Financial support of Higher Education of Libya (469/2009).

Self-compacting concrete (SCC)

Drying shrinkage strain

Fly ash

Drying shrinkage models

Non-Linear Drying Diffusion and Viscoelastic Drying Shrinkage Modeling in Hardened Cement Pastes

Leung, Chin K.

2009 May 1900

The present research seeks to study the decrease in diffusivity rate as relative humidity (RH) decreases and modeling drying shrinkage of hardened cement paste as a poroviscoelastic respose. Thin cement paste strips of 0.4 and 0.5 w/c at age 3 and 7 days were measured for mass loss and shrinkage at small RH steps in an environmental chamber at constant temperature. Non-linear drying diffusion rate of hardened cement was modeled with the use of Fick's second law of diffusion by assuming linearity of diffusion rate over short drops of ambient relative humidity. Techniques to determine drying isotherms prior to full equilibration of mass loss, as well as converting mass loss into concentration of water vapor were developed. Using the measured water vapor diffusivity, drying shrinkage strain was modeled by the theory of poroviscoelasticity. This approach was validated by determining viscoelastic properties from uniaxial creep tests considering the effect of aging by the solidification theory. A change in drying diffusion rate at different RH was observed in the 0.4 and 0.5 w/c pastes at different ages. Drying diffusion rate decreases as RH drops. This can be attributed to a change in diffusion mechanisms in the porous media at smaller pore radius. Shrinkage modeling with an average diffusion coefficient and with determined viscoelastic parameters from creep tests agreed well compared to the shrinkage data from experiments, indicating that drying shrinkage of cement paste may be considered as a poroviscoelastic reponse.

Drying Diffusion

Drying Shrinkage

Viscoelasticity

Poroelasticity

Cement Paste

Desorption Isotherm

Prediction of Drying Shrinkage Cracking of Steel Chip Reinforced Polymer Cementitious Composites Considering Bond and Tensile Creep / スチールチップ補強ポリマーセメント系複合材料の付着と引張クリープを考慮した乾燥収縮ひび割れの予測

Sunhee, Hong

24 September 2015

京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第19300号 / 工博第4097号 / 新制||工||1631(附属図書館) / 32302 / 京都大学大学院工学研究科建築学専攻 / (主査)教授 金子 佳生, 教授 田中 仁史, 教授 竹脇 出 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DFAM

Steel chip

Polymer

Creep

Bond

Drying shrinkage cracking prediction

500

Influência do consumo de água, do teor de adição de microfibras de polipropileno, e do tipo de cimento no fenômeno da retração por secagem em concretos empregados em pisos / Influence of water consumption, the addition content of polypropylene staple fibers and the kind of cement in the volumetric changes of concretes used in floors

Senisse, Juliana Alves de Lima

January 2010

Mudanças volumétricas presentes na matriz cimentícia, oriundas dos processos de hidratação e de secagem do compósito cimentício, geram uma tendência de fissuração no material. Em pisos de concreto, a presença de tal manifestação patológica, decorrente do fenômeno da retração por secagem, é extremamente preocupante. Desta forma, a realização de esforços visando avaliar a influência de materiais constituintes do traço do concreto e seus proporcionamentos, com o intuito de reduzir a tendência de fissuração do material, gerada pelo fenômeno da retração por secagem, é extremamente válida. Para isto, foram avaliados fatores controláveis como o consumo de água (175l/m³; 190l/m³; 205l/m³), o teor de adição de microfibras de polipropileno (0g/m³; 300g/m³; 600g/m³; 900g/m³), o tipo de cimento (CP IV; CP V-ARI) e a idade, variável para cada ensaio realizado. Os ensaios empregados para esta avaliação foram o de resistência à compressão uniaxial, resistência à tração na flexão, retração por secagem livre e retração por secagem restringida. Os resultados dos ensaios mecânicos demonstraram a influência significativa do tipo de cimento e da idade avaliada na resistência do concreto. O teor de adição de microfibras de polipropileno exerceu uma pequena influência, porém significativa, com incrementos de 5% nos resultados mecânicos do ensaio de resistência à compressão uniaxial para os traços com teores de adição de 300g/m³ e 600g/m³. No entanto para o ensaio de resistência à tração na flexão, tal variável não se demonstrou significativa. O fator consumo de água não influenciou significativamente nos resultados correspondentes aos ensaios mecânicos, uma vez que a relação a/c manteve-se constante para todos os concretos estudados. No ensaio de retração por secagem livre, o tipo de cimento não demonstrou significância relevante para os resultados obtidos. Comportamento este, também observado para o teor de adição de microfibras de polipropileno, o qual não reduziu a magnitude da retração por secagem livre. Diferentemente do observado para a variável consumo de água, a qual influenciou significativamente nos dados obtidos, demonstrando a existência de uma relação direta entre a mesma e o fenômeno estudado. No ensaio de retração por secagem restringida, a tendência de fissuração dos concretos estudados foi influenciada significativamente pelo consumo de água presente na mistura. Conjuntamente, os resultados obtidos neste ensaio demonstraram que o teor de adição de microfibras de polipropileno é uma variável que deve ser proporcionada como os demais materiais constituintes do traço do concreto, ou seja, a quantidade incorporada no compósito cimentício não pode ser um valor determinado, semelhante para qualquer tipo de concreto. / Volumetric changes present in the cement paste matrix, coming from the processes of hydration and drying of cementitious composites, generate a cracking tendency in the material. In the concrete floor, this cracking tendency is extremely worrying. In this sense, efforts to evaluate the influence of important parameters in the mixture proportions of concrete, for decrease the cracking tendency due to drying shrinkage, it’s extremely valid. So, parameters were assessed like the consumption of water (175l/m³; 190l/m³; 205l/m³), the addition content of polypropylene staple fiber (0g/m³; 300g/m³; 600g/m³; 900g/m³), the type of cement (CP IV; CP V-ARI) and age, different for each test performed. The tests performed for this assessment were the compressive strength, flexural tensile strength, unrestrained drying shrinkage and restrained drying shrinkage. The results of mechanical tests shown the significant influence of the kind of cement and age assessed in the strength of concrete. The addition content of polypropylene staple fiber exerted little influence on the results of mechanical tests, but it was significant, with increases of 5% in the results of compressive strength for the mixtures with addition levels of 300g/m³ e 600g/m³. However for the flexural tensile strength, this parameter didn’t show significant. The water consumption didn’t influence significantly the results of mechanical tests, since the ratio a/c was constant for all concretes studied. In the unrestrained drying shrinkage, the kind of cement didn’t show importance for the results. This behavior also observed for the addition content of polypropylene staple fiber, which didn’t reduce the magnitude of free drying shrinkage. However, the water consumption influenced significantly in the results, demonstrating the existence of a direct relationship between it and the phenomenon studied. In the restrained drying shrinkage, the cracking tendency of the concrete studied was significantly affected by the consumption of water present in the mixture. Together, the results of this test showed that the addition content of polypropylene staple fiber is a parameter that should be provided as the others materials of the concrete mixture, i.e., the amount of polypropylene staple fiber incorporated into the cementitious composite can’t be a value fixed, similar to any type of concrete mixture.

Pisos de concreto

Fibras de polipropileno

Concreto

Ensaios mecânicos

Manifestações patológicas

Concrete floor

Unrestrained drying shrinkage

Restrained drying shrinkage

Cracking tendency

Influência do consumo de água, do teor de adição de microfibras de polipropileno, e do tipo de cimento no fenômeno da retração por secagem em concretos empregados em pisos / Influence of water consumption, the addition content of polypropylene staple fibers and the kind of cement in the volumetric changes of concretes used in floors

Senisse, Juliana Alves de Lima

January 2010

Mudanças volumétricas presentes na matriz cimentícia, oriundas dos processos de hidratação e de secagem do compósito cimentício, geram uma tendência de fissuração no material. Em pisos de concreto, a presença de tal manifestação patológica, decorrente do fenômeno da retração por secagem, é extremamente preocupante. Desta forma, a realização de esforços visando avaliar a influência de materiais constituintes do traço do concreto e seus proporcionamentos, com o intuito de reduzir a tendência de fissuração do material, gerada pelo fenômeno da retração por secagem, é extremamente válida. Para isto, foram avaliados fatores controláveis como o consumo de água (175l/m³; 190l/m³; 205l/m³), o teor de adição de microfibras de polipropileno (0g/m³; 300g/m³; 600g/m³; 900g/m³), o tipo de cimento (CP IV; CP V-ARI) e a idade, variável para cada ensaio realizado. Os ensaios empregados para esta avaliação foram o de resistência à compressão uniaxial, resistência à tração na flexão, retração por secagem livre e retração por secagem restringida. Os resultados dos ensaios mecânicos demonstraram a influência significativa do tipo de cimento e da idade avaliada na resistência do concreto. O teor de adição de microfibras de polipropileno exerceu uma pequena influência, porém significativa, com incrementos de 5% nos resultados mecânicos do ensaio de resistência à compressão uniaxial para os traços com teores de adição de 300g/m³ e 600g/m³. No entanto para o ensaio de resistência à tração na flexão, tal variável não se demonstrou significativa. O fator consumo de água não influenciou significativamente nos resultados correspondentes aos ensaios mecânicos, uma vez que a relação a/c manteve-se constante para todos os concretos estudados. No ensaio de retração por secagem livre, o tipo de cimento não demonstrou significância relevante para os resultados obtidos. Comportamento este, também observado para o teor de adição de microfibras de polipropileno, o qual não reduziu a magnitude da retração por secagem livre. Diferentemente do observado para a variável consumo de água, a qual influenciou significativamente nos dados obtidos, demonstrando a existência de uma relação direta entre a mesma e o fenômeno estudado. No ensaio de retração por secagem restringida, a tendência de fissuração dos concretos estudados foi influenciada significativamente pelo consumo de água presente na mistura. Conjuntamente, os resultados obtidos neste ensaio demonstraram que o teor de adição de microfibras de polipropileno é uma variável que deve ser proporcionada como os demais materiais constituintes do traço do concreto, ou seja, a quantidade incorporada no compósito cimentício não pode ser um valor determinado, semelhante para qualquer tipo de concreto. / Volumetric changes present in the cement paste matrix, coming from the processes of hydration and drying of cementitious composites, generate a cracking tendency in the material. In the concrete floor, this cracking tendency is extremely worrying. In this sense, efforts to evaluate the influence of important parameters in the mixture proportions of concrete, for decrease the cracking tendency due to drying shrinkage, it’s extremely valid. So, parameters were assessed like the consumption of water (175l/m³; 190l/m³; 205l/m³), the addition content of polypropylene staple fiber (0g/m³; 300g/m³; 600g/m³; 900g/m³), the type of cement (CP IV; CP V-ARI) and age, different for each test performed. The tests performed for this assessment were the compressive strength, flexural tensile strength, unrestrained drying shrinkage and restrained drying shrinkage. The results of mechanical tests shown the significant influence of the kind of cement and age assessed in the strength of concrete. The addition content of polypropylene staple fiber exerted little influence on the results of mechanical tests, but it was significant, with increases of 5% in the results of compressive strength for the mixtures with addition levels of 300g/m³ e 600g/m³. However for the flexural tensile strength, this parameter didn’t show significant. The water consumption didn’t influence significantly the results of mechanical tests, since the ratio a/c was constant for all concretes studied. In the unrestrained drying shrinkage, the kind of cement didn’t show importance for the results. This behavior also observed for the addition content of polypropylene staple fiber, which didn’t reduce the magnitude of free drying shrinkage. However, the water consumption influenced significantly in the results, demonstrating the existence of a direct relationship between it and the phenomenon studied. In the restrained drying shrinkage, the cracking tendency of the concrete studied was significantly affected by the consumption of water present in the mixture. Together, the results of this test showed that the addition content of polypropylene staple fiber is a parameter that should be provided as the others materials of the concrete mixture, i.e., the amount of polypropylene staple fiber incorporated into the cementitious composite can’t be a value fixed, similar to any type of concrete mixture.

Pisos de concreto

Fibras de polipropileno

Concreto

Ensaios mecânicos

Manifestações patológicas

Concrete floor

Unrestrained drying shrinkage

Restrained drying shrinkage

Cracking tendency

Influência do consumo de água, do teor de adição de microfibras de polipropileno, e do tipo de cimento no fenômeno da retração por secagem em concretos empregados em pisos / Influence of water consumption, the addition content of polypropylene staple fibers and the kind of cement in the volumetric changes of concretes used in floors

Senisse, Juliana Alves de Lima

January 2010

Mudanças volumétricas presentes na matriz cimentícia, oriundas dos processos de hidratação e de secagem do compósito cimentício, geram uma tendência de fissuração no material. Em pisos de concreto, a presença de tal manifestação patológica, decorrente do fenômeno da retração por secagem, é extremamente preocupante. Desta forma, a realização de esforços visando avaliar a influência de materiais constituintes do traço do concreto e seus proporcionamentos, com o intuito de reduzir a tendência de fissuração do material, gerada pelo fenômeno da retração por secagem, é extremamente válida. Para isto, foram avaliados fatores controláveis como o consumo de água (175l/m³; 190l/m³; 205l/m³), o teor de adição de microfibras de polipropileno (0g/m³; 300g/m³; 600g/m³; 900g/m³), o tipo de cimento (CP IV; CP V-ARI) e a idade, variável para cada ensaio realizado. Os ensaios empregados para esta avaliação foram o de resistência à compressão uniaxial, resistência à tração na flexão, retração por secagem livre e retração por secagem restringida. Os resultados dos ensaios mecânicos demonstraram a influência significativa do tipo de cimento e da idade avaliada na resistência do concreto. O teor de adição de microfibras de polipropileno exerceu uma pequena influência, porém significativa, com incrementos de 5% nos resultados mecânicos do ensaio de resistência à compressão uniaxial para os traços com teores de adição de 300g/m³ e 600g/m³. No entanto para o ensaio de resistência à tração na flexão, tal variável não se demonstrou significativa. O fator consumo de água não influenciou significativamente nos resultados correspondentes aos ensaios mecânicos, uma vez que a relação a/c manteve-se constante para todos os concretos estudados. No ensaio de retração por secagem livre, o tipo de cimento não demonstrou significância relevante para os resultados obtidos. Comportamento este, também observado para o teor de adição de microfibras de polipropileno, o qual não reduziu a magnitude da retração por secagem livre. Diferentemente do observado para a variável consumo de água, a qual influenciou significativamente nos dados obtidos, demonstrando a existência de uma relação direta entre a mesma e o fenômeno estudado. No ensaio de retração por secagem restringida, a tendência de fissuração dos concretos estudados foi influenciada significativamente pelo consumo de água presente na mistura. Conjuntamente, os resultados obtidos neste ensaio demonstraram que o teor de adição de microfibras de polipropileno é uma variável que deve ser proporcionada como os demais materiais constituintes do traço do concreto, ou seja, a quantidade incorporada no compósito cimentício não pode ser um valor determinado, semelhante para qualquer tipo de concreto. / Volumetric changes present in the cement paste matrix, coming from the processes of hydration and drying of cementitious composites, generate a cracking tendency in the material. In the concrete floor, this cracking tendency is extremely worrying. In this sense, efforts to evaluate the influence of important parameters in the mixture proportions of concrete, for decrease the cracking tendency due to drying shrinkage, it’s extremely valid. So, parameters were assessed like the consumption of water (175l/m³; 190l/m³; 205l/m³), the addition content of polypropylene staple fiber (0g/m³; 300g/m³; 600g/m³; 900g/m³), the type of cement (CP IV; CP V-ARI) and age, different for each test performed. The tests performed for this assessment were the compressive strength, flexural tensile strength, unrestrained drying shrinkage and restrained drying shrinkage. The results of mechanical tests shown the significant influence of the kind of cement and age assessed in the strength of concrete. The addition content of polypropylene staple fiber exerted little influence on the results of mechanical tests, but it was significant, with increases of 5% in the results of compressive strength for the mixtures with addition levels of 300g/m³ e 600g/m³. However for the flexural tensile strength, this parameter didn’t show significant. The water consumption didn’t influence significantly the results of mechanical tests, since the ratio a/c was constant for all concretes studied. In the unrestrained drying shrinkage, the kind of cement didn’t show importance for the results. This behavior also observed for the addition content of polypropylene staple fiber, which didn’t reduce the magnitude of free drying shrinkage. However, the water consumption influenced significantly in the results, demonstrating the existence of a direct relationship between it and the phenomenon studied. In the restrained drying shrinkage, the cracking tendency of the concrete studied was significantly affected by the consumption of water present in the mixture. Together, the results of this test showed that the addition content of polypropylene staple fiber is a parameter that should be provided as the others materials of the concrete mixture, i.e., the amount of polypropylene staple fiber incorporated into the cementitious composite can’t be a value fixed, similar to any type of concrete mixture.

Pisos de concreto

Fibras de polipropileno

Concreto

Ensaios mecânicos

Manifestações patológicas

Concrete floor

Unrestrained drying shrinkage

Restrained drying shrinkage

Cracking tendency

Performance des bétons autoplaçants développés pour la préfabrication d'éléments de ponts précontraints / Performance-based specifications of self-consolidating concrete designated for precast/prestressed bridge girder applications

Long, Wu Jian

January 2008

In the precast construction market, the competitive situation is significantly affected by price, cost, productivity, and quality factors. Since self-consolidating concrete (SCC) was first introduced to the concrete industry in the late 1980s, it has been used worldwide in variety of applications. Despite the documented technical and economic advantages of SCC in precast, prestressed applications, the use of SCC has been limited in some countries due to some technical uncertainties of such innovative material. To explore some unsolved issues related to SCC and to contribute to a wider acceptance of SCC in precast, prestressed applications, this study was undertaken to assess the effect of mixture proportioning and material characteristics on the performance of SCC and recommend performance-based specifications for use of SCC in the precast, prestressed applications. The thesis presents an experimental program that contains four parts: (1) a parametric study to evaluate the influence of binder type, w/cm, coarse aggregate type, and coarse aggregate nominal size on the modulus of elasticity and compressive strength developments; (2) a parametric study to evaluate the effect of mixture proportioning and material characteristics on fresh and hardened properties of SCC; (3) a fractional factorial design to identify the relative significance of primary mixture parameters and their coupled effects on SCC properties; and (4) a field validation using full-scale AASHTO Type II girders cast to investigate constructability, material properties, and structural performance (the latter part was carried out by the research team of Professor Denis Mitchell at McGill University). Based on the experimental test results, SCC exhibits similar compressive strength and modulus of elasticity to that of conventional high-performance concrete (HPC) of normal slump consistency. SCC and HPC mixtures made of a given binder type exhibit similar autogenous shrinkage. However, SCC exhibits up to 30% and 20% higher drying shrinkage and creep, respectively, at 300 days compared to HPC made with similar w/cm but different paste volume. The results of the experiment program show that among the investigated material constituents and mix design parameters, the w/cm has the most significant effect on mechanical and visco-elastic properties. The binder content, binder type, and sand-to-total aggregate ratio (S/A) also have considerable effect on those properties. The thickening-type viscosity modifying admixture (VMA) content (0 to 150 ml/100 kg CM) does not significantly affect mechanical and visco-elastic properties. Based on the findings, some mixture parameters regarding the overall performance of SCC designated for precast and prestressed applications can be recommended: SCC made with relatively low w/cm (such as 0.34 vs. 0.40) should be selected to ensure desirable compressive strength, modulus of elasticity (MOE), flexural strength, as well as less drying shrinkage and creep; the use of crushed aggregate with 12.5 mm MSA is suggested since it provides better mechanical properties of SCC compared to gravel; the use of low S/A (such as 0.46 vs. 0.54) to secure adequate mechanical and visco-elastic properties is recommended; the use of thickening-type VMA can help to secure robustness and stability of the concrete in the case of SCC proportioned with moderate and relatively high w/cm; and the use of Type MS cement can lead to lower creep and shrinkage than Type HE cement and 20% Class F fly ash. However, SCC mixtures made with Type HE cement and 20% Class F fly ash can result in better workability and mechanical properties. Therefore, it is recommended to use Type HE cement and 20% Class F fly ash and reduce binder content (such as 440 kg/m[exposant 3] vs. 500 kg/m[exposant 3]) to assure better overall performance of SCC. Validation on full-scale AASHTO-Type II girders using two HPC and two SCC mixtures show that girders casting with SCC can be successfully carried out without segregation and blocking for the selected optimized mixtures. The surface quality of the girders cast with SCC is quite satisfactory and of greater uniformity than girders cast with HPC. Both HPC and SCC mixtures develop similar autogenous shrinkage for mixtures made with similar w/cm. Again, the two evaluated SCC mixtures develop about 20% greater drying shrinkage than comparable HPC mixtures. Modifications of existing models to assess mechanical and visco-elastic properties of SCC used in the precast, prestressed applications are proposed. Based on the comparisons of various code provisions, the ACI 209 and CEB-FIP codes with suggested material coefficients can be recommended to estimate compressive strength. The modified AASHTO 2007 model can be used for predicting the elastic modulus and flexural strength. The AASHTO 2004 and 2007 models with suggested material coefficients can be used to estimate drying shrinkage and creep, respectively. The CEB-FIP 90 code model can be used to predict both drying shrinkage and creep. Finally, the modified Tazawa and Miyazawa 1997 model with material modifications can be used to estimate autogenous shrinkage of SCC.

Autogenous shrinkage

Creep

Drying shrinkage

Material selection

Mechanical properties

Precast/prestressed girders

Self-consolidating concrete

Workability

Concreto com agregados graúdos reciclados de concreto : influência da idade de reciclagem nas propriedades dos agregados e concretos reciclados. / Concrete with recycled concrete coarse aggregates : influence of age of recycling in the properties of recycled aggregates and concretes

Buttler, Alexandre Marques

12 May 2003

Os resíduos de concreto apresentam grande potencial para serem reciclados quando comparados com outros resíduos, entretanto, o número de estudos realizados no Brasil é muito pequeno dificultando a utilização deste material em dosagens estruturais. Em virtude disso, desenvolveu-se um estudo teórico-experimental visando caracterizar algumas propriedades do agregado e do concreto reciclado; no estudo teórico exploraram-se aspectos relacionados à geração, deposição, processos para recuperação, britagem, casos práticos, pesquisas envolvendo reciclados de concreto e as recomendações normativas existentes. No desenvolvimento experimental, analisou-se a influência do período decorrido entre a moldagem e a reciclagem do concreto nas propriedades dos agregados e concretos. Os resultados indicam que resíduos reciclados logo após sua geração, contribuem positivamente para as propriedades mecânicas do concreto, devido à existência de grande quantidade de partículas não-hidratadas de cimento, tais concretos obtiveram resultados superiores para a resistência à compressão e tração quando comparados aos concretos com agregados naturais. / The concrete residues show a large potential to be recycled when compared with other residues; however, the number of studies in Brazil is very small hindering the use of this material in structural dosage. By virtue of that, it was developed a theoretical-experimental study to characterize some properties of aggregate and recycled concrete; in the theoretical study it was explored aspects related to the generation, deposition, processes for recovery, crushing, practical cases, researches involving recycled of concrete and the existent normative recommendations. In the experimental development, it was analyzed the influence of the period elapsed between the molding and the recycling of the concrete in the properties of the aggregates and concretes. The results indicate that residues recycled soon after generation, these contribute positively to the mechanical properties of the concrete due to the existence of large amount of nonhydrated cement particles, such concretes obtained results superiors for the compression strenght and tensile strenght when compared to the concretes with natural aggregates.

agregado reciclado

concreto reciclado

drying shrinkage

reciclagem

recycled aggregate

recycled concrete

recycling

retração por secagem

Influência do carregamento precoce na retração por secagem do concreto

Silva, Lucilia Maria Silveira Bernardino da

January 2016

Apesar dos avanços tecnológicos e do conhecimento disponível sobre o concreto e suas propriedades, muitas estruturas apresentam-se degradadas prematuramente. Assim, são necessárias frequentes intervenções para reparo havendo, em consequência, consumo de quantidades expressivas de materiais, com importantes impactos financeiros e ambientais. A preocupação crescente com o desempenho das estruturas de concreto tem incentivado vários segmentos da sociedade a buscarem soluções que assegurem sua durabilidade. Nesse sentido, muitas pesquisas acadêmicas vêm sendo desenvolvidas para melhor entender o comportamento do concreto frente a diferentes condições de uso, considerando-se suas propriedades mecânicas e de durabilidade. Esta pesquisa teve por objetivo analisar o desempenho de concretos frente à retração por secagem, após terem sido submetidos ao pré-carregamento. Foram utilizados os cimentos CP V ARI e CP IV, nas relações a/c 0,35, 0,50 e 0,70, e adotadas as idades de cura de 7 e 28 dias. Nas idades 1, 3 e 7 dias, os concretos foram submetidos a carregamentos de 25%, 50% e 75% da carga média de ruptura à tração na flexão (NBR 12142, ABNT, 2010). Realizou-se o ensaio para determinação da retração por secagem (ASTM C157/C157M-08, 2014e1), em concretos de referência e nos pré-carregados. Foram também realizadas análises complementares, como determinação da velocidade da onda ultrassônica (NBR 8802, ABNT, 2013), porosimetria por intrusão de mercúrio e microtomografia de raios X. Comparando-se o desempenho dos concretos pré-carregados ao dos concretos de referência, o cimento CP V ARI apresentou redução da retração média, exceto para a relação a/c 0,35 com cura de 7 dias. Nos concretos com cimento CP IV, a retração média diminuiu para a relação a/c 0,70, com ambas as idades de cura. O pré-carregamento provocou, em maior ou menor grau, a associação de dois diferentes efeitos. Por um lado, a compactação ocasionou a quebra dos compostos menos resistentes da matriz, havendo um efeito físico de redução dos vazios capilares, além da exposição de grãos anidros. Em paralelo, ocorreu a microfissuração do concreto, favorecendo, também, a exposição de grãos anidros. A cura por imersão possibilitou a continuidade da hidratação, com a formação de novos produtos resistentes na matriz, reduzindo as porosidades total e efetiva e, portanto, a taxa da retração do concreto. Além da densificação da matriz, a cura prolongada possibilitou a hidratação dos grãos anidros de cimento expostos nas paredes das microfissuras, favorecendo a sua autocicatrização (self-healing), o que contribuiu com a recuperação da capacidade resistente dos concretos, frente aos esforços da secagem. Assim, a associação destes fatores promoveu a redução da retração por secagem nos concretos estudados, principalmente nos mais porosos. / The growing concern with the performance of structures has encouraged several segments of society to find solutions to improve concrete durability. Several studies have been made to provide a better understanding of the mechanical properties and concrete durability in different conditions. This study assessed the drying shrinkage performance of preloaded concrete. Cement types CP V ARI, equivalent to Portland type III (ASTM C150/C150M-16e1) and CP IV, equivalent to Portland type IP (ASTM C595/C595M-16) were used with w/b = 0.35, 0.50 and 0.70 and curing ages of 7 and 28 days. At the ages of 1, 3 and 7 days, concrete mixes were subject to loads of 25%, 50% and 75% of their mean ultimate flexural strength (Brazilian Standard NBR 12142, ABNT, 2010). Drying shrinkage in reference and preloaded concrete was determined according to ASTM C157/C157M-14e1. Additional tests included ultrasound pulse velocity (NBR 8802, ABNT, 2013), mercury intrusion porosimetry (MIP) and X-ray microtomography. Preloaded CP V ARI cement concrete showed a drop in mean shrinkage when compared with the reference mix, except for the mix with w/b = 0.35 cured for 7 days. For CP IV cement, mean shrinkage dropped with w/b =0.70 for both curing ages. Early loading caused a compaction effect, promoting the weakest compounds of the matrix to be broken, filling the capillary voids. In this process some unhydrous grains probably were exposed. On the other hand, microcracking also occurred, lefting unhydrated grains exposed in the microcracks walls. Due to immersion curing, the availability of water promoted the hydration continuity. New resistant hydrates filled the large voids and reduced the total and effective porosities in the cement matrix. The hydration of anhydrous grains in the microcracks walls had led to self-healing, with partial resistance capacity recovery. The combined effect of these factors promoted the drying shrinkage reducing, mainly for the more porous concrets.

Concreto

Retração por secagem

Fissuras (Engenharia)

Concrete preloading

Drying shrinkage

Self-healing of cracks

Performance of concrete