Accelerated carbonation of regenerated binding material prepared with waste cement paste powder

IF 1.4 4区工程技术 Q3 CONSTRUCTION & BUILDING TECHNOLOGY Advances in Cement Research Pub Date : 2023-12-25 DOI:10.1680/jadcr.23.00098

Linnu Lu, Peng Wang, Yongjia He, Ma Jie, Fazhou Wang, Shuguang Hu

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Abstract

An approach for efficient re-utilization of waste cement paste powders is proposed, that is, the powders are heated to a certain temperature to prepare Regenerated Binding Materials (RBMs), and then rapid carbonated by high concentration CO₂ to prepare high-strength products. The structural evolution during the heating process of waste cement paste powder and the carbonation process of RBMs were investigated by XRD, SEM, and ²⁹Si NMR etc., and the compressive strength of the carbonated RBM samples was measured. The results show that the differences in carbonation reactivity, carbonation products of RBMs, and properties of carbonated RBMs are mainly attributed to the differences in structural order degree of newly formed β-C₂S, the content of β-C₂S, f-CaO and incomplete decomposed C-S-H in RBMs. The strength of the carbonated sample of RBM prepared at 1050 °C was the highest, followed by that prepared at 950 °C, which was significantly higher than those prepared at 650 °C, 750 °C and 850 °C. The content of highly ordered β-C₂S in RBMs with high carbonation reactivity, and the dense stacking of the carbonation products are beneficial for the mechanical properties.

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用废弃水泥浆粉制备的再生结合材料的加速碳化

提出了一种高效再利用废弃水泥浆粉末的方法，即将粉末加热到一定温度制备再生结合材料（RBM），然后用高浓度二氧化碳快速碳化制备高强度产品。通过 XRD、SEM 和 29Si NMR 等方法研究了废弃水泥浆粉末加热过程和 RBM 碳化过程中的结构演变，并测量了碳化 RBM 样品的抗压强度。结果表明，碳化反应性、RBM 的碳化产物和碳化 RBM 性能的差异主要归因于 RBM 中新形成的 β-C2S 结构阶次、β-C2S、f-CaO 和未完全分解的 C-S-H 的含量不同。在 1050 ℃ 下制备的碳化 RBM 样品强度最高，其次是 950 ℃ 下制备的碳化 RBM 样品，明显高于 650 ℃、750 ℃ 和 850 ℃ 下制备的碳化 RBM 样品。碳化反应活性高的 RBM 中高度有序的 β-C2S 含量以及碳化产物的致密堆积有利于其机械性能的提高。

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来源期刊

Advances in Cement Research 工程技术-材料科学：综合

CiteScore

3.70

自引率

5.00%

发文量

审稿时长

3.2 months

期刊介绍： Advances in Cement Research highlights the scientific ideas and innovations within the cutting-edge cement manufacture industry. It is a global journal with a scope encompassing cement manufacture and materials, properties and durability of cementitious materials and systems, hydration, interaction of cement with other materials, analysis and testing, special cements and applications.