Effect of carbonated recycled concrete fines on the performance of limestone–calcined clay cement

Wang, Yingyu; Chen, Peiyuan; Zong, Zijian; Li, Jin; Fang, Jingjing; Wang, Aiguo

doi:10.1680/jmacr.25.00247

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Research Article| November 17 2025

Effect of carbonated recycled concrete fines on the performance of limestone–calcined clay cement

Yingyu Wang;

Yingyu Wang

School of Civil Engineering and Architecture,

Anhui University of Science and Technology

, Huainan,

China

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Peiyuan Chen;

Peiyuan Chen

Joint National–Local Engineering Research Centre for Safe and Precise Coal Mining,

Anhui University of Science and Technology

, Huainan,

China

; School of Civil Engineering and Architecture, Anhui University of Science and Technology, Huainan, China

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Zijian Zong;

Zijian Zong

School of Civil Engineering and Architecture,

Anhui University of Science and Technology

, Huainan,

China

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Jin Li;

Jin Li

School of Civil Engineering and Architecture,

Anhui University of Science and Technology

, Huainan,

China

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Jingjing Fang;

Jingjing Fang

School of Civil Engineering and Architecture,

Anhui University of Science and Technology

, Huainan,

China

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Aiguo Wang

Anhui Province Engineering Laboratory of Advanced Building Materials,

Anhui Jianzhu University

, Hefei,

China

; Anhui Province Key Laboratory of Advanced Building Materials, Anhui Jianzhu University, Hefei, China

Corresponding author Aiguo Wang (wag3134@126.com)

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Author & Article Information

Corresponding author Aiguo Wang (wag3134@126.com)

Declaration of competing interests The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

Publisher: Emerald Publishing

Received: June 23 2025

Accepted: August 25 2025

Online ISSN: 1751-763X

Print ISSN: 0024-9831

Funding

Funding Group:

Award Group:
- Funder(s):
  National Natural Science Foundation of China
- Award Id(s):
  52227901
  ,
  52008003
Award Group:
- Funder(s):
  Outstanding Youth Projects of Natural Science Research in Universities of Anhui Province
- Award Id(s):
  23AH030043
Award Group:
- Funder(s):
  Open Research Grant of Joint National–Local Engineering Research Centre for Safe and Precise Coal Mining
- Award Id(s):
  EC2023010
Award Group:
- Funder(s):
  Open Research Grant of Key Laboratory of Xinjiang Coal Resources Green Mining
- Award Id(s):
  KLXGY-KB2417
Award Group:
- Funder(s):
  Anhui Provincial Science and Technology Innovation Key Projects Plan
- Award Id(s):
  202423110050008
Award Group:
- Funder(s):
  Tongling Municipal Science and Technology Plan Project
- Award Id(s):
  20230203048
Award Group:
- Funder(s):
  University Synergy Innovation Program of Anhui Province
- Award Id(s):
  GXXT-2023-061
Funding Statement(s):
The authors acknowledge the National Natural Science Foundation of China (52227901 and 52008003), Outstanding Youth Projects of Natural Science Research in Universities of Anhui Province (23AH030043), Open Research Grant of Joint National–Local Engineering Research Centre for Safe and Precise Coal Mining (EC2023010), Open Research Grant of Key Laboratory of Xinjiang Coal Resources Green Mining (KLXGY-KB2417), Anhui Provincial Science and Technology Innovation Key Projects Plan (202423110050008), Tongling Municipal Science and Technology Plan Project (20230203048) and the University Synergy Innovation Program of Anhui Province (No. GXXT-2023-061). Thanks also go to the Analytical and Testing Center of Anhui University of Science and Technology for help in sample analysis.

2025

Emerald Publishing Limited

Licensed re-use rights only

Magazine of Concrete Research (2025) 77 (23-24): 1351–1362.

https://doi.org/10.1680/jmacr.25.00247

The viability of converting recycled concrete fines (RCF) into low-grade artificial limestone, through carbonation in aqueous systems, for use as a sustainable replacement for high-grade limestone in limestone–calcined clay cement (LC³) was explored. The experimental results suggest that the carbonated RCF (CRCF) exhibited high pozzolanic activity, generating additional calcium (aluminium) silicate hydrate (C-(A)-S-H) to serve as nucleation sites for LC³ hydration. The refined particle size of the CRCF and the presence of fine-sized calcium carbonate further facilitated initial ions dissolution, accelerating early-age hydration and improving the pore structure of the LC³. Moreover, the incorporation of CRCF significantly enhanced the compressive strength of the LC³. Specially, when CRCF were used as a complete replacement of limestone, the compressive strength improved by 19.82% at 3 days and 2.50% at 28 days, respectively, relative to the control. These findings demonstrate the potential of CRCF as a sustainable alternative to limestone, contributing to both efficient concrete waste utilisation and environmentally friendly LC³ production.

2025

Emerald Publishing Limited

Licensed re-use rights only

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Effect of carbonated recycled concrete fines on the performance of limestone–calcined clay cement