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Performance enhancement of recycled concrete through carbonation during ready-mix and curing

Qiong Liu, Annan Cheng, Amardeep Singh, Vivian W.Y. Tam

2024Construction and Building Materials19 citationsDOIOpen Access PDF

Abstract

Incorporating CO₂ into the concrete mixing process is an effective method of carbon sequestration, though fewer studies have applied this technique to recycled aggregate concrete (RAC). This study explores the development of carbonation ready-mix recycled aggregate concrete (CRRC) through the incorporation of CO 2 during the mixing process to enhance the properties. Various CO₂ dosages were tested to evaluate their effects on the compressive strength and uniaxial stress-strain behavior of CRRC. For comparative purposes, carbonation ready-mix mortar (CRM) was also produced using a similar mix design without recycled aggregate. The physical and mechanical properties of both CRM and CRRC were analyzed to assess the influence of CO₂ dosage and recycled aggregates. The results showed a 30.99 % reduction in CRM fluidity with increasing CO₂ doses, while mechanical properties improved by 43.62 % compared to the control group. CRRC exhibited a similar trend in compressive strength improvement, with a more pronounced effect than CRM, resulting in a 93.8 % increase at the 0.3 % CO₂ dose. Uniaxial stress-strain tests indicated that the peak stress improvement at the 0.6 % CO 2 dose was comparable to that at 0.3 % dose. Additionally, peak strain and elastic modulus were both enhanced, with maximum increases of 41.6 % and 47.0 %, respectively. These findings highlight the potential of RAC to efficiently sequester CO₂ during the mixing stage, leading to significant improvements in early strength and contributing to sustainability in concrete production. • This study focuses on the carbonation of fully ready-mix recycled concrete (CRRC). Half of the CRRC specimens underwent carbonation curing to analyze the coupling effects of two carbonation modes. • This study examines the carbonation of ready-mix mortar with identical ratios to analyze the effect of CO 2 on slurry flowability. • This study conducted stress-strain full-curve experiments on CRRC to analyze the effect of carbonation on specimen strain during the mixing and curing phases. • This study presents in situ SEM scans of specimen slices taken before and after carbonation.

Topics & Concepts

CarbonationCuring (chemistry)Materials scienceComposite materialWaste managementEngineeringRecycled Aggregate Concrete PerformanceInnovative concrete reinforcement materialsInnovations in Concrete and Construction Materials
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