Improvement of CO₂-Cured Sludge Ceramsite on the Mechanical Performances and Corrosion Resistance of Cement Concrete

The application of CO₂ curing on sludge ceramsite may improve its mechanical properties, and then increase the corresponding corrosion resistance. In this study, the influence of CO₂-cured sludge ceramsite on the strength and long-term properties of cement concrete is investigated. CO₂ curing time ranges from 0 h to 2 d. The cylinder compressive strength and water absorption rate of CO₂-cured sludge ceramsite are first determined. Additionally, the flexural and compressive strengths, the chloride permeability and the freeze-thaw damage, as well as the corresponding thermal conductivity of cement concrete, are tested. Furthermore, the corrosion resistance of reinforcement inner-sludge-ceramsite cement concrete is measured. Finally, the scanning electron microscope photos of sludge ceramsite are obtained. Results show that the cylinder compressive strength of CO₂-cured sludge ceramsite is 15.1, ~34.2% higher than that of sludge ceramsite. Meanwhile, the water absorption rate of CO₂-cured sludge ceramsite is 39.6, ~82.4% higher than that of sludge ceramsite. The compressive strength and the flexural strength of cement concrete with CO₂-cured sludge ceramsite are 11.4 and 18.7, ~21.6% and ~31.5% higher than the cement concrete with sludge ceramsite, respectively. The resistance of NaCl freeze-thaw cycles, determined by comparing the mass loss rate and the loss rates of mechanical strengths, is effectively improved by CO₂ curing, while the thermal conductivity of cement concrete is decreased by CO₂ curing. The corrosion resistance of inner reinforcement is improved by the application of CO₂ curing on sludge ceramsite.