Microstructure and microanalysis of hardened ordinary Portland cement pastes

Richardson, Ian; Groves, G. W.

doi:10.1007/bf00349061

Cited by 217 publications

(129 citation statements)

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“…In a CEM-I system, C-S-H has a Ca/Si molar ratio of &1.75 and a fibrillar morphology. 1 In water activated OPC (Ordinary Portland cement) slag blends, C-S-H morphology changes content of slag. 2,3 However, in similar alkali activated pastes, the morphology is foil-like regardless of the Ca/Si.…”

Section: Introductionmentioning

confidence: 99%

Composition, silicate anion structure and morphology of calcium silicate hydrates (C-S-H) synthesised by silica-lime reaction and by controlled hydration of tricalcium silicate (C₃S)

Rodriguez

Richardson

Black

et al. 2015

Advances in Applied Ceramics

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112

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The main product of Portland cement hydration is C-S-H. Despite constituting more than half of the volume of hydrated pastes and having an important role in strength development, very little is known about the factors that determine its morphology. To investigate the relationship between the chemical composition, silicate anion structure and morphology of C-S-H, samples were synthesised via silica-lime reactions and by the hydration of C 3 S under controlled lime concentrations and with/without accelerators. The silicate anion structure of the samples was studied by A relationship between the silicate anion structure and the morphology of C-S-H was found for the samples fabricated with accelerators.

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Section: Introductionmentioning

confidence: 99%

Composition, silicate anion structure and morphology of calcium silicate hydrates (C-S-H) synthesised by silica-lime reaction and by controlled hydration of tricalcium silicate (C₃S)

Rodriguez

Richardson

Black

et al. 2015

Advances in Applied Ceramics

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112

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“…Analisando a Figura 21, onde são apresentados isoladamente valores médios para as variáveis do estudo, observamos o efeito significativo do ambiente agressivo e uma pequena diferença do efeito da relação água/cimento, onde a sua redução mostra um melhor comportamento no ambiente do laboratório e um comportamento diferenciado em campo. Deve-se considerar [18] que concretos de mais baixa relação a/c apresentam uma estrutura mais compacta, de alta resistividade. Essa estrutura menos porosa possui menos eletrólitos e dificulta, sobremaneira, o caminhamento iônico até a superfície do concreto (onde está o eletrodo de referência).…”

Section: Síntese Dos Resultadosunclassified

“…Os aditivos à base de nitrato de cálcio são naturalmente aceleradores do processo de hidratação do cimento, que depende da taxa de concentração de cálcio em solução para iniciar a formação do silicato de cálcio hidratado (C-S-H), principal produto da hidratação do cimento Portland e responsável pelas suas propriedades mecânicas. Este fato também pode estar associado a concentração final de cálcio na mistura, que pode contribuir para elevação da relação molar Ca/Si do C-S-H, formando uma pasta de maior densidade ou com maior concentração de C-S-H por unidade de volume [18].…”

Section: Resistência à Compressãounclassified

“…A massa de concreto quando saturada não oferece a mesma resistência de quando seca, ou seja, a queda ôhmica que antes ocorria devido à resistência oferecida pela camada de concreto não ocorre mais, porém muitas interferências são observadas pela variação da umidade. Ratificando esta distorção dos resultados nas primeiras idades, Cascudo [18] alerta para o fato de que ao se trabalhar com camadas superficiais de concreto de alta resistividade, no caso da presença de frente de cloretos ou elevado teor de umidade do concreto, há uma tendência à redução nos valores do potencial, tornando-os menos eletropositivos do que o são na realidade. Uma vez que, quando os poros do concreto estão saturados, os processos corrosivos são controlados por fenômenos de polarização catódica, não podendo ser usado como indicador de processos ativos de corrosão.…”

Section: Medidas De Potencial Em Ambiente Acelerado De Laboratório E unclassified

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Estudo de inibidores de corrosão em concreto armado

et al. 2010

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A corrosão é um fenômeno que afeta toda a sociedade, atribuindo-se uma grande importância sócio-econômica aos seus efeitos. Na área da engenharia, existem diversas conseqüências do processo corrosivo, como ocorre no aço de reforço das estruturas de concreto. Na intenção de oferecer segurança e durabilidade às estruturas, empresas do ramo químico e de produtos para construção civil disponibilizam no mercado diferentes formas de proteção à corrosão. Este trabalho apresenta análises de medidas de potencial realizadas em amostras de concreto armado, com diferentes relações água/cimento, produzidos com e sem inibidores de corrosão e expostos a dois ambientes com cloretos: em campo, exposto às intempéries da atmosfera marinha do litoral sul de Santa Catarina; em laboratório, a um processo cíclico de aceleração da corrosão através de imersão parcial (solução contendo cloretos) e secagem em estufa. Nas duas situações, foram mantidas as amostras por um período de 63 dias. A corrosão por cloretos em laboratório mostrou-se o sistema mais agressivo e eficiente para avaliar o potencial de corrosão. Os resultados buscaram caracterizar a eficiência dos inibidores de corrosão utilizados, que foram denominados de inibidor A, inibidor B e inibidor C e, ao fim das análises, foi possível classificá-los quanto ao desempenho em ambientes contaminados por cloretos em: Inibidor B > Inibidor C > Inibidor A. A redução da relação água/cimento (0,45) melhorou o desempenho do concreto de referência e dos três tipos de inibidores de corrosão utilizados. Evidenciou-se modificação das propriedades mecânicas dos concretos com inibidores, o que pode conduzir ao desenvolvimento de concretos mais impermeáveis e duráveis. Palavras-chaves:Aditivos químicos, Inibidores de corrosão, estruturas de concreto. Corrosion inhibitors study in steel-reinforced concrete ABSTRACTCorrosion is a phenomenon that affects the whole of society, such that great socioeconomic importance is attributed to its effects. In the area of the engineering, numerous consequences of the corrosive process exist, like that which occurs in steel reinforcement of concrete structures. With the intention of providing structural safety and durability, the chemical industry and companies that supply construction products market different forms of protection against corrosion. This work presents analyses of measurements of corrosive potential conducted on samples of steel-reinforced concrete, with different water/cement ratios, fabricated with and without corrosion inhibitor and exposed to two environments containing chloride: in the field, exposed to the unpredictable weather of the marine environment of the southern coastal region of Santa Catarina; and in the laboratory, exposed to a cyclical process of corrosion acceleration through partial immersion (solution containing chloride) and drying in a heater. The specimens were maintained for a period of 63 days in the respective environments. Corrosion by chloride solution in the laboratory proved to be the most aggressive and efficient s...

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“…Many previous studies have indicated that the morphology of C-S-H phases in outer product regions of cement paste that is mainly impacted by exposure environment, is affected significantly since they involves substitution materials such as fly ash, ground granulated blast furnace slag, silicafume or metakaolin (Richardson 1999(Richardson , 2000(Richardson , 2004. In OPC paste, the microstructure of C-S-H phases in outer product regions is strongly linear directional, it appears as fibril in transition electron microscopy (TEM) (Richardson et al 1992(Richardson et al , 1993(Richardson et al , 1997Richardson et al 2000;Girao et al 2007). However, in cement paste involving reactive substitution materials, the linear dimensional characteristic or fibrillar nature of C-S-H in outer product regions is gradually replaced by crumpled-like or foil-like characteristic since the fraction of substitution increases (Richardson et al 1992(Richardson et al , 1997Love et al 2007;Girao et al 2010;Taylor et al 2010).…”

Section: Alteration Of Morphology In Sc Pastesmentioning

confidence: 99%

Effects of Electrochemical Chloride Extraction on Hydrated Products of Various Cement Paste Systems

Nguyen

Yokota

Hashimoto

2015

ACT

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The adverse effects of the long term application of electrochemical chloride extraction on binding capacity of hydrated cement products are innegligible. In this study, the influences of electrochemical chloride extraction in the microstructural properties of hydrated cement products of cement pastes were investigated in paste specimens by using a modified migration cell that was conducted with the applied current density of 4.5 A/m 2 and synthesized pore solutions as electrolytes for 8 weeks. Three types of cement pastes were used with the water-to-binder ratio of 0.4 including ordinary Portland cement (OPC), fly ash cement (FC) and ground granulated blast furnace slag cement (SC) pastes. Chloride source was supplied by adding 1.5% sodium chloride. After extraction, the acid-soluble and water-soluble chloride contents significantly reduced. Portlandite content increased proportionally with the time of extraction in OPC and FC pastes although the contribution of calcium ions in transferring the current is negligible. Some unsteady gel phases was obtained after a short time the extraction was stopped. Furthermore, the alteration and decomposition of C-S-H were inevitable with different rates depending on the type of cement.

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Microstructure and microanalysis of hardened ordinary Portland cement pastes

Cited by 217 publications

References 16 publications

Composition, silicate anion structure and morphology of calcium silicate hydrates (C-S-H) synthesised by silica-lime reaction and by controlled hydration of tricalcium silicate (C₃S)

Composition, silicate anion structure and morphology of calcium silicate hydrates (C-S-H) synthesised by silica-lime reaction and by controlled hydration of tricalcium silicate (C₃S)

Estudo de inibidores de corrosão em concreto armado

Effects of Electrochemical Chloride Extraction on Hydrated Products of Various Cement Paste Systems

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Microstructure and microanalysis of hardened ordinary Portland cement pastes

Cited by 217 publications

References 16 publications

Composition, silicate anion structure and morphology of calcium silicate hydrates (C-S-H) synthesised by silica-lime reaction and by controlled hydration of tricalcium silicate (C3S)

Composition, silicate anion structure and morphology of calcium silicate hydrates (C-S-H) synthesised by silica-lime reaction and by controlled hydration of tricalcium silicate (C3S)

Estudo de inibidores de corrosão em concreto armado

Effects of Electrochemical Chloride Extraction on Hydrated Products of Various Cement Paste Systems

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Composition, silicate anion structure and morphology of calcium silicate hydrates (C-S-H) synthesised by silica-lime reaction and by controlled hydration of tricalcium silicate (C₃S)

Composition, silicate anion structure and morphology of calcium silicate hydrates (C-S-H) synthesised by silica-lime reaction and by controlled hydration of tricalcium silicate (C₃S)