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Rheological and mechanical properties of microfine-cement-based grouts mixed with microfine fly ash, colloidal nanosilica and superplasticizer
Highlights Rheological and mechanical properties of microfine-cement-based grouts were studied. The incorporation of MFA and SP each improved the fluidity and spreading ability of fresh grouts. 0.5% NS decreased the apparent viscosity of fresh grouts. An increase in the NS content improved the early strength and bonding strength.
Abstract To ensure desirable fluidity, less leaching and mechanical properties of grouts in geotechnical engineering, a microfine-cement-based grout mixed with microfine fly ash (MFA), colloidal nanosilica (NS) and superplasticizer (SP) was designed. In this paper, the rheological and mechanical properties of grouts with different additives were investigated. The results show that all microfine-cement-based grouts have satisfactory apparent viscosity, behave as Bingham fluids, are stable for water/solid (W/S) ratio = 1.2. The incorporation of MFA and SP each improve the fluidity and spreading ability of fresh grouts, while prolonging the setting time. The addition of NS has negative effects on fluidity and shrinkage property of fresh grouts, nevertheless, it has positive effects on shortening setting time, enhancing stability and mechanical properties.
Rheological and mechanical properties of microfine-cement-based grouts mixed with microfine fly ash, colloidal nanosilica and superplasticizer
Highlights Rheological and mechanical properties of microfine-cement-based grouts were studied. The incorporation of MFA and SP each improved the fluidity and spreading ability of fresh grouts. 0.5% NS decreased the apparent viscosity of fresh grouts. An increase in the NS content improved the early strength and bonding strength.
Abstract To ensure desirable fluidity, less leaching and mechanical properties of grouts in geotechnical engineering, a microfine-cement-based grout mixed with microfine fly ash (MFA), colloidal nanosilica (NS) and superplasticizer (SP) was designed. In this paper, the rheological and mechanical properties of grouts with different additives were investigated. The results show that all microfine-cement-based grouts have satisfactory apparent viscosity, behave as Bingham fluids, are stable for water/solid (W/S) ratio = 1.2. The incorporation of MFA and SP each improve the fluidity and spreading ability of fresh grouts, while prolonging the setting time. The addition of NS has negative effects on fluidity and shrinkage property of fresh grouts, nevertheless, it has positive effects on shortening setting time, enhancing stability and mechanical properties.
Rheological and mechanical properties of microfine-cement-based grouts mixed with microfine fly ash, colloidal nanosilica and superplasticizer
Zhang, Shuai (author) / Qiao, Wei-Guo (author) / Chen, Peng-Cheng (author) / Xi, Kai (author)
Construction and Building Materials ; 212 ; 10-18
2019-03-28
9 pages
Article (Journal)
Electronic Resource
English
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