Title:
Effects of Water-to-Binder Ratios on the Workability, Durability and Strength Development of In-Situ Carbonated Concrete
Author(s):
Melaku N. Seifu, Jemal Kedir Adem, Hammad R. Khalid, G. M. Kim, Solmoi Park
Publication:
IJCSM
Volume:
20
Issue:
Appears on pages(s):
Keywords:
Portland cement, Fly ash, Concrete, In-situ carbonation
DOI:
10.1186/s40069-025-00827-8
Date:
3/31/2026
Abstract:
Enhancing the performance and sustainability of concrete is critical in modern construction, and in-situ carbonation offers a promising approach by introducing CO2 directly during mixing. This study investigates the influence of CO2 dosage on the workability, durability, and strength of concrete with varying water-to-binder ratios. Gaseous CO2 was injected during mixing, leading to the immediate formation of amorphous calcium carbonate and a noticeable reduction in slump within 10 min. Experimental results showed that CO2 addition improved pore structure and chloride resistance, with reductions of up to 18% in total charge and 13% in migration coefficient. However, a decrease in 28-day compressive strength was observed, varying with mix design. These findings highlight the importance of carefully balancing CO2 dosage and water-to-binder ratio to enhance durability without compromising long-term strength.