Exploration of Waterproofness of Concrete and Alkali-Aggregate Using Hydrophobic Impregnation and Coating

Abstract: Part of the tunnel spoil can not be used for concrete due to alkali-aggregate reaction (AAR). Water is an indispensable condition for AAR, so separating the alkali-aggregate from water is of great benefit to controlling the AAR. This paper investigates the modification of concrete and aggregate by hydrophobic impregnation and organic coating and then evaluates their waterproof and mechanical properties by dynamic contact angle (DCA), ultrasonic wave velocity, scanning electron microscope (SEM), nuclear magneti… Show more

“…It was reported that pores with the size larger than 200 nm were defined as harmful pores [33,34]. The proportion of harmful pores in concrete with 0.5%, 0.75%, and 1.25% superplasticizer content reach 48.11%, 50.64%, and 61.46%, respectively, because the high dosage of superplasticizer would bring more air bubbles into the concrete.…”

The flowability and high-temperature resistance of manufactured sand concrete: An exploration for high-rise buildings

“…It was reported that pores with the size larger than 200 nm were defined as harmful pores [33,34]. The proportion of harmful pores in concrete with 0.5%, 0.75%, and 1.25% superplasticizer content reach 48.11%, 50.64%, and 61.46%, respectively, because the high dosage of superplasticizer would bring more air bubbles into the concrete.…”

The flowability and high-temperature resistance of manufactured sand concrete: An exploration for high-rise buildings

Mitigation of alkali silica reactions in concrete using multi-crystalline intermixed waterproofing materials