Detail publikace
Blastfurnace Hybrid Cement with Waste Water Glass Activator: Alkali-Silica Reaction Study
KALINA, L. BÍLEK, V. BRADOVÁ, L. TOPOLÁŘ, L.
Originální název
Blastfurnace Hybrid Cement with Waste Water Glass Activator: Alkali-Silica Reaction Study
Anglický název
Blastfurnace Hybrid Cement with Waste Water Glass Activator: Alkali-Silica Reaction Study
Jazyk
en
Originální abstrakt
Hybrid systems represent a new sustainable type of cement combining the properties of ordinary Portland cement and alkali-activated materials. In this study, a hybrid system based on blast furnace slag and Portland clinker was investigated. The economic aspects and appropriate waste management resulted in the usage of technological waste from water glass production (WG-waste) as an alkaline activator. Although the Portland clinker content was very low, the incorporation of this by-product significantly improved the mechanical properties. Nevertheless, the high amount of alkalis in combination with possible reactive aggregates raises concerns about the risk of alkali–silica reaction (ASR). The results obtained from expansion measurement, the uranyl acetate fluorescence method, and microstructure characterization revealed that the undesirable effects of alkali–silica reaction in mortars based on the hydration of hybrid cement are minimal.
Anglický abstrakt
Hybrid systems represent a new sustainable type of cement combining the properties of ordinary Portland cement and alkali-activated materials. In this study, a hybrid system based on blast furnace slag and Portland clinker was investigated. The economic aspects and appropriate waste management resulted in the usage of technological waste from water glass production (WG-waste) as an alkaline activator. Although the Portland clinker content was very low, the incorporation of this by-product significantly improved the mechanical properties. Nevertheless, the high amount of alkalis in combination with possible reactive aggregates raises concerns about the risk of alkali–silica reaction (ASR). The results obtained from expansion measurement, the uranyl acetate fluorescence method, and microstructure characterization revealed that the undesirable effects of alkali–silica reaction in mortars based on the hydration of hybrid cement are minimal.
Plný text v Digitální knihovně
Dokumenty
BibTex
@article{BUT164725,
author="Lukáš {Kalina} and Vlastimil {Bílek} and Lada {Bradová} and Libor {Topolář}",
title="Blastfurnace Hybrid Cement with Waste Water Glass Activator: Alkali-Silica Reaction Study",
annote="Hybrid systems represent a new sustainable type of cement combining the properties of ordinary Portland cement and alkali-activated materials. In this study, a hybrid system based on blast furnace slag and Portland clinker was investigated. The economic aspects and appropriate waste management resulted in the usage of technological waste from water glass production (WG-waste) as an alkaline activator. Although the Portland clinker content was very low, the incorporation of this by-product significantly improved the mechanical properties. Nevertheless, the high amount of alkalis in combination with possible reactive aggregates raises concerns about the risk of alkali–silica reaction (ASR). The results obtained from expansion measurement, the uranyl acetate fluorescence method, and microstructure characterization revealed that the undesirable effects of alkali–silica reaction in mortars based on the hydration of hybrid cement are minimal.",
address="MDPI",
chapter="164725",
doi="10.3390/ma13163646",
howpublished="online",
institution="MDPI",
number="16",
volume="13",
year="2020",
month="august",
pages="1--9",
publisher="MDPI",
type="journal article in Web of Science"
}