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Capillary Water Absorption Characteristics of Recycled Concrete in Freeze‐Thaw Environment

Qianhui Xiao, Xiaolin Liu, Jisheng Qiu, Yangyang Li

2020Advances in Materials Science and Engineering29 citationsDOIOpen Access PDF

Abstract

In order to study the capillary water absorption characteristics of recycled concrete (RAC) with different replacement rates of recycled coarse aggregate (0, 20%, 40%, and 60%) in freeze‐thaw environment, the standard test method of measuring the water absorption of hydraulic cement concrete (ASTM C1585‐13) was adopted, and the influence mechanism of freeze‐thaw cycle and replacement rate of recycled coarse aggregate on the capillary water absorption of RAC was analyzed, and a prediction model of initial capillary water absorption of RAC in freeze‐thaw environment was established. The results show that when the freeze‐thaw environment is the same, the greater the replacement rate of recycled coarse aggregate, the greater the cumulative water absorption of RAC, the faster the initial capillary water absorption, and the stronger the capillary water absorption; when the freeze‐thaw environment is different, the more the freeze‐thaw cycles, the greater the cumulative water absorption of RAC with the same replacement rate of recycled coarse aggregate, the faster the initial capillary water absorption, and the stronger the capillary water absorption. The prediction model of RAC initial capillary water absorption established by regression analysis has high accuracy, which can be used to predict RAC capillary water absorption performance and provide theoretical basis for the research of RAC frost resistance durability.

Topics & Concepts

Materials scienceCapillary actionAbsorption of waterComposite materialAbsorption (acoustics)Recycled Aggregate Concrete PerformanceGeotechnical Engineering and Soil StabilizationInnovations in Concrete and Construction Materials
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