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Pozzolanic reaction in the presence of chemical activators. Part I. Reaction kinetics
This study has examined the effect of activators (Na2SO4 and CaCl2) on pozzolanic reaction kinetics in a lime-pozzolan blend, which consists of 80% ground volcanic ash and 20% hydrated lime, at 23, 35, 50, and 65 degree C. The addition of 4% Na2SO4 increased both the early and later strengths of lime-pozzolan pastes from 23 to 65 degree C. The presence of 4% CaCl2 x 2H2O decreased the early strength but increased the later strength at 23 degree C, and increased both the early and later strengths of the paste from 35 to 65 degree C. Measurement of free Ca(OH)2 in hardened pastes indicated that the presence of Na2SO4 and CaCl2 accelerated the consumption of Ca(OH)2. A fair linear correlation could be established between measurable compressive strength and the degree of reaction of Ca(OH)2 regardless of activators. Kinetic analyses using modified Jander's equation suggest that the pozzolanic reaction process in the lime-pozzolan pastes could be divided into three phases: Phase I, controlled by the pozzolanic reaction rate; Phase II, controlled by the diffusion of reactants through a layer of porous hydration products; and Phase III, controlled by the diffusion of reactants through a layer of dense hydration products.
Pozzolanic reaction in the presence of chemical activators. Part I. Reaction kinetics
This study has examined the effect of activators (Na2SO4 and CaCl2) on pozzolanic reaction kinetics in a lime-pozzolan blend, which consists of 80% ground volcanic ash and 20% hydrated lime, at 23, 35, 50, and 65 degree C. The addition of 4% Na2SO4 increased both the early and later strengths of lime-pozzolan pastes from 23 to 65 degree C. The presence of 4% CaCl2 x 2H2O decreased the early strength but increased the later strength at 23 degree C, and increased both the early and later strengths of the paste from 35 to 65 degree C. Measurement of free Ca(OH)2 in hardened pastes indicated that the presence of Na2SO4 and CaCl2 accelerated the consumption of Ca(OH)2. A fair linear correlation could be established between measurable compressive strength and the degree of reaction of Ca(OH)2 regardless of activators. Kinetic analyses using modified Jander's equation suggest that the pozzolanic reaction process in the lime-pozzolan pastes could be divided into three phases: Phase I, controlled by the pozzolanic reaction rate; Phase II, controlled by the diffusion of reactants through a layer of porous hydration products; and Phase III, controlled by the diffusion of reactants through a layer of dense hydration products.
Pozzolanic reaction in the presence of chemical activators. Part I. Reaction kinetics
Shi, Caijun (Autor:in) / Day, R.L. (Autor:in)
Cement and Concrete Research ; 30 ; 51-58
2000
8 Seiten, 16 Quellen
Aufsatz (Zeitschrift)
Englisch
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