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Cement-based materials' characterization using ultrasonic attenuationPunurai, Wonsiri. January 2006 (has links)
Thesis (Ph. D.)--Civil and Environmental Engineering, Georgia Institute of Technology, 2006. / Dr. Jennifer Michaels, Committee Member ; Dr. Jacek Jarzynski, Committee Member ; Dr. Jianmin Qu, Committee Member ; Dr. Laurence J. Jacobs, Committee Chair ; Dr. Kimberly E. Kurtis, Committee Co-Chair.
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The Influence of the Binder Type & Aggregate Nature on the Electrical Resistivity and Compressive Strength of Conventional ConcreteDeda, Hugo 18 November 2020 (has links)
Concrete has been used in a number of civil engineering applications due to its interesting fresh, hardened, and durability-related properties. 28-day compressive strength is the most important hardened state property and is frequently used as an indicator of the material’s quality. However, early-age mechanical properties are a key factor nowadays to enhance construction planning. Several advanced techniques have been proposed to appraise concrete microstructure and quality, and among those electrical resistivity (ER) is one of the most commonly used since it is a non-destructive and low-cost technique. Although recent literature data have shown that ER may be significantly influenced by a variety of parameters such as the test setup, material porosity and moisture content, binder type/amount and presence of supplementary cementing materials (SCMs) along with the nature of the aggregates used in the mix, further research must be performed to clarify the influence of the raw materials (i.e. SCMs and aggregate nature) on ER using distinct setups. Therefore, this work aims to appraise the influence of the coarse aggregate nature and binder replacement/amount on the concrete ER and compressive strength predictions models through ER. Twenty-four concrete mixtures were developed with two different coarse aggregate natures (i.e. granite and limestone), two different water-to-binder ratios (w/b; i.e. 0.6 and 0.4) and incorporating two different SCMs (i.e. slag and fly-ash class F) with different replacement levels. Moreover, three distinct ER techniques (e.g. bulk, surface, and internal) and compressive strength tests were performed at different ages (i.e. 3, 7, 14, and 28 days). Results indicate that the binder type and replacement amount significantly affect ER and compressive strength. Otherwise, the coarse aggregate nature presented only trivial influence for 0.6 w/b mixes, except for 50% fly-ash replacement samples; whereas for concrete specimens with enhanced microstructure (i.e. 0.4 w/b), the aggregate nature influence was statically significant especially for the binary mixtures with high SCMs replacement levels (i.e. 70% GGBS and 50% fly-ash). Finally, all ER test setups were considered to be quite suitable and reliable NDT techniques correlating themselves very well. Yet the internal resistivity setup demonstrated to be the device which yields the lowest variability amongst them.
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Um modelo macro - mesoscópico para a simulação de fratura em concreto simples / Meso – macro model for the simulation of plain concrete fractureRosa, Cláudia Mesquita da January 2011 (has links)
Com a finalidade de estudar processos de fratura em concreto simples, este trabalho propõe uma escala intermediária de análise. Sendo assim, é apresentado um modelo simplificado de duas fases, o qual representa alguns elementos da microestrutra do concreto. Uma fase representa os agregados e a outra a matriz de cimento. Os agregados são considerados elástico-lineares e são representados pelos elementos finitos. Toda a não-linearidade do concreto e do processo de fratura é considerada na matriz de cimento. Tal fase é representada por interfaces coesivas, de espessura zero, entre os elementos finitos. Enquanto o modelo considera propriedades microscópicas do concreto como entrada, tem-se o comportamento macroscópico da estrutura como saída, o que é uma grande vantagem da escala proposta. Efeitos como a relação água/cimento e a densidade de agregados são introduzidos no modelo. Os resultados mostram que o modelo é capaz de captar, pelo menos qualitativamente, efeitos os quais somente são possíveis de obter com um modelo de três fases. / An intermediate scale of analysis is proposed here in order to study the fracture of plain concrete. A simplified two phases model is proposed as a concrete microstructure. One phase is the aggregate and other is the cement matrix. Aggregate is considered elastic linear and is represented by finite elements. All the non-linearity of the concrete and the fracture process is considered in the cement matrix. This phase is represented by a zero thickness cohesive interface between finite elements. While the model considers microscopic properties of the concrete as input, it delivers the macroscopic behavior of the structure as output, which is a great advantage of the proposed scale. Effects like water-cement ratio and density of aggregates are introduced in the model. Results show the model is able to capture, at least qualitatively, effects only possible to obtain by a three phases model.
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Um modelo macro - mesoscópico para a simulação de fratura em concreto simples / Meso – macro model for the simulation of plain concrete fractureRosa, Cláudia Mesquita da January 2011 (has links)
Com a finalidade de estudar processos de fratura em concreto simples, este trabalho propõe uma escala intermediária de análise. Sendo assim, é apresentado um modelo simplificado de duas fases, o qual representa alguns elementos da microestrutra do concreto. Uma fase representa os agregados e a outra a matriz de cimento. Os agregados são considerados elástico-lineares e são representados pelos elementos finitos. Toda a não-linearidade do concreto e do processo de fratura é considerada na matriz de cimento. Tal fase é representada por interfaces coesivas, de espessura zero, entre os elementos finitos. Enquanto o modelo considera propriedades microscópicas do concreto como entrada, tem-se o comportamento macroscópico da estrutura como saída, o que é uma grande vantagem da escala proposta. Efeitos como a relação água/cimento e a densidade de agregados são introduzidos no modelo. Os resultados mostram que o modelo é capaz de captar, pelo menos qualitativamente, efeitos os quais somente são possíveis de obter com um modelo de três fases. / An intermediate scale of analysis is proposed here in order to study the fracture of plain concrete. A simplified two phases model is proposed as a concrete microstructure. One phase is the aggregate and other is the cement matrix. Aggregate is considered elastic linear and is represented by finite elements. All the non-linearity of the concrete and the fracture process is considered in the cement matrix. This phase is represented by a zero thickness cohesive interface between finite elements. While the model considers microscopic properties of the concrete as input, it delivers the macroscopic behavior of the structure as output, which is a great advantage of the proposed scale. Effects like water-cement ratio and density of aggregates are introduced in the model. Results show the model is able to capture, at least qualitatively, effects only possible to obtain by a three phases model.
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Um modelo macro - mesoscópico para a simulação de fratura em concreto simples / Meso – macro model for the simulation of plain concrete fractureRosa, Cláudia Mesquita da January 2011 (has links)
Com a finalidade de estudar processos de fratura em concreto simples, este trabalho propõe uma escala intermediária de análise. Sendo assim, é apresentado um modelo simplificado de duas fases, o qual representa alguns elementos da microestrutra do concreto. Uma fase representa os agregados e a outra a matriz de cimento. Os agregados são considerados elástico-lineares e são representados pelos elementos finitos. Toda a não-linearidade do concreto e do processo de fratura é considerada na matriz de cimento. Tal fase é representada por interfaces coesivas, de espessura zero, entre os elementos finitos. Enquanto o modelo considera propriedades microscópicas do concreto como entrada, tem-se o comportamento macroscópico da estrutura como saída, o que é uma grande vantagem da escala proposta. Efeitos como a relação água/cimento e a densidade de agregados são introduzidos no modelo. Os resultados mostram que o modelo é capaz de captar, pelo menos qualitativamente, efeitos os quais somente são possíveis de obter com um modelo de três fases. / An intermediate scale of analysis is proposed here in order to study the fracture of plain concrete. A simplified two phases model is proposed as a concrete microstructure. One phase is the aggregate and other is the cement matrix. Aggregate is considered elastic linear and is represented by finite elements. All the non-linearity of the concrete and the fracture process is considered in the cement matrix. This phase is represented by a zero thickness cohesive interface between finite elements. While the model considers microscopic properties of the concrete as input, it delivers the macroscopic behavior of the structure as output, which is a great advantage of the proposed scale. Effects like water-cement ratio and density of aggregates are introduced in the model. Results show the model is able to capture, at least qualitatively, effects only possible to obtain by a three phases model.
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Zlepšení dispergace křemičitého úletu ve vysokohodnotných betonech / Improving of dispersion of silica fume in high performance concreteJanča, Martin January 2017 (has links)
The goal of this work was to create a method for improving the dispersion of silica fumes for use in high performance concrete. Traditional methods used to design and manufacture high performance concrete emphasize the removal of coarse aggregates. Use of specially sorted fine aggregates at relatively low doses, the use of super-plasticizers and siliceous excrement. The low water content was achieved by using superplasticizer on a polycarboxylate basis. The standard ultrasound technology found in each laboratory was selected for the dispersion of silica fume. For experiments were we used dry silica fume powder and aqueous stabilized suspension. For comparison, were prepared different mixtures which showed the effects of the treatment prior to the use of silica fume.
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Quantitative räumliche Auswertung der Mikrostruktur eines in Beton eingebetteten MultifilamentgarnsKang, Bong-Gu, Focke, Inga, Brameshuber, Wolfgang, Benning, Wilhelm 03 June 2009 (has links)
Zur detaillierten Beschreibung des Lastabtragverhaltens textiler Bewehrung im Beton ist es erforderlich, das Penetrationsverhalten der Betonmatrix in die stark heterogene Garnstruktur zu beschreiben. Zur Charakterisierung der Mikrostruktur im Querschnitt wurde eine Bildanalysemethode entwickelt, um die Verbundsituation der einzelnen Filamente quantitativ auswerten zu können. Um eine räumliche Beschreibung der Verbundsituation zu erreichen, wurde die Strategie verfolgt, aus aufeinander folgenden Schichtaufnahmen mittels Rasterelektronenmikroskopie eine räumliche Struktur abzuleiten. Hierzu wurden zum einen die experimentelle Vorgehensweise erarbeitet und zum anderen ein Ansatz für die Zuordnung der Filamente zwischen den einzelnen Querschnitten entwickelt.
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