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Effect of Hydrogen Nanobubbles on the Mechanical Strength and Watertightness of Cement Mixtures

Won-Kyung Kim, Young Ho Kim, Gigwon Hong, Jong‐Min Kim, Jung-Geun Han, Jong‐Young Lee

2021Materials18 citationsDOIOpen Access PDF

Abstract

This study analyzed the effects of applying highly concentrated hydrogen nanobubble water (HNBW) on the workability, durability, watertightness, and microstructure of cement mixtures. The number of hydrogen nanobubbles was concentrated twofold to a more stable state using osmosis. The compressive strength of the cement mortar for each curing day was improved by about 3.7-15.79%, compared to the specimen that used general water, when two concentrations of HNBW were used as the mixing water. The results of mercury intrusion porosimetry and a scanning electron microscope analysis of the cement paste showed that the pore volume of the specimen decreased by about 4.38-10.26%, thereby improving the watertightness when high-concentration HNBW was used. The improvement in strength and watertightness is a result of the reduction of the microbubbles' particle size, and the increase in the zeta potential and surface tension, which activated the hydration reaction of the cement and accelerated the pozzolanic reaction.

Topics & Concepts

Materials scienceCementComposite materialPozzolanic reactionMicrostructureScanning electron microscopeDurabilityCompressive strengthPozzolanic activityMercury intrusion porosimetryCuring (chemistry)Microporous materialSilica fumeUltimate tensile strengthMortarPozzolanPorosityPortland cementPorous mediumMinerals Flotation and Separation TechniquesCalcium Carbonate Crystallization and InhibitionIndustrial Gas Emission Control