Effect of Additives on the Rheological and Mechanical Properties of Microfine-Cement-Based Grout
TLDR
In this paper, a microfine-cement-based grout mixed with microfine fly ash (MFA), nano-CaCO3 (NC), and superplasticizer (SP) was designed to improve the rheological and mechanical properties of grouting materials.Abstract:
Enhancement of the fluidity and mechanical performance of grouting materials has proven to be an effective method of seepage prevention in geotechnical engineering. In this research, a microfine-cement-based grout mixed with microfine fly ash (MFA), nano-CaCO3 (NC), and superplasticizer (SP) was designed to improve the rheological and mechanical properties of grouting materials, and the particle size distribution, fluidity, spreading ability, bleed capacity, setting time, and mechanical properties were studied. A water/solid (W/S) ratio of 1.2 was selected, and the contents of MFA, NC, and SP by mass of microfine cement (MC) were 0–40%, 0–2.0%, and 1.5%, respectively. The results showed that MFA and 1.5% SP improved the fluidity and spreading ability of fresh grouts, while prolonging the setting time. The addition of NC can increase the yield stress and plastic viscosity and decrease the fluidity and spreading ability; nevertheless, it obviously enhances the stability and shortens the setting time of grouts. The addition of MFA and 1.5% SP reduced the compressive strength of hardened grouts; however, the addition of NC improved the mechanical properties.read more
Citations
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Effect of superplasticizers on hydration kinetics of ultrafine sulfoaluminate cement-based grouting material
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Synergistic effect of polycarboxylate superplasticizer and silica fume on early properties of early high strength grouting material for semi-flexible pavement
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Strength and permeability of boric acid-tempered ultrafine cement grouted sand
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References
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Mechanical and durability properties of high volume fly ash (HVFA) concrete containing calcium carbonate (CaCO3) nanoparticles
TL;DR: In this article, the effects of nano-CaCO3 nanoparticles on compressive strength and durability properties of high volume fly ash (HVFA) concretes containing 40% and 60% fly ash as partial replacement of cement are evaluated.
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Effect of nano-CaCO3 on hydration of cement containing supplementary cementitious materials
T. Sato,James J. Beaudoin +1 more
TL;DR: In this paper, the efficacy of nano-CaCO3 in accelerating the hydration of ordinary Portland cement (OPC) delayed by the presence of high volumes of supplementary cementitious materials including fly ash and slag was investigated.
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An investigation of rheological properties of cement-based grout mixed with rice husk ash (RHA)
Fatih Celik,Hanifi Canakci +1 more
TL;DR: In this article, the fluidity and rheological properties of the cement-based grout mixed with rice husk ash (RHA) were investigated, and it was shown that increasing replacement level for the RHA amount increases marsh cone flow time, plate cohesion, plastic and apparent viscosity, and the yield stress, but also decreases mini slump diameter.