Enhancement of the wet carbonation of artificial recycled concrete aggregates in seawater

Ning Li, Cise Unluer

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Abstract

This study aimed to improve the carbonation efficiency and reduce processing time of recycled concrete aggregates (RCAs). Different liquid mediums were used for wet carbonation and compared with dry carbonation. Reaction kinetics, phase assemblage, microstructure and performance of RCAs and recycled aggregate concrete (RAC) prepared with carbonated RCAs were evaluated. RCAs carbonated under seawater for 10 min achieved >9 % reduction in water absorption and 3 % increase in density, which were more efficient than dry carbonated samples. Compressive strength of RAC prepared with 1-h seawater carbonated RCAs was significantly improved. Formation of ettringite and calcite under wet carbonation increased density and strength by contributing to solid volume, also leading to improved bond strength in interfacial transition zone in RAC. Seawater presents several advantages as a medium for wet carbonation due to its abundant availability, CO2 capture capacity and accelerated hydration and carbonation, thereby enabling rapid improvement of RCA's and resulting concrete formulations' performance.
Original languageEnglish
Article number107387
JournalCement and Concrete Research
Volume175
Early online date21 Nov 2023
DOIs
Publication statusPublished - 1 Jan 2024

Keywords

  • Recycled concrete aggregates (D)
  • wet carbonation (A)
  • seawater (D)
  • concrete (E)
  • interface (B)

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