Effect of calcium phosphate modification on the interfacial transition zone of recycled aggregate and concrete

Cement and Concrete Composites Pub Date : 2024-11-28 DOI:10.1016/j.cemconcomp.2024.105872

Lei Wu, Abdul Majid, Qianghua Tang, Zhe Sun, Yan Cao

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Abstract

Recycling construction solid waste is an immediate need due to the substantial amount of construction waste that occupies valuable land and poses environmental hazards. In response to challenges related to the performance and interfacial transition zone (ITZ) when using recycled aggregate (RA) in concrete, a modified formulation with low calcium phosphate (CaP) content was developed to enhance RA's performance. It was found that when the mass ratio of CaP to RA reached 0.001 g/g, the physical properties of RA were significantly improved through a precoating treatment, resulting in a 31.52% increase in the compressive strength of recycled aggregate concrete (RAC) compared to the control group. An in-depth analysis of the mechanism of action of CaP revealed that the active layer formed by CaP on the RA surface promoted the slow hydrolysis-hydration coupling reaction through the sustained release of Ca²⁺ and PO₄^3- ions. This process and the solid-phase reactions of C-S-H gel, carbonation products, and sulfate ions effectively improved the pore structure, increased the specific surface area by 47.36%, and reduced crack width by 78.95%. Furthermore, the bond strength test between modified RA and freshly hardened mortar showed a 30.29% increase in bond strength, directly demonstrating the effectiveness of CaP in enhancing the ITZ in RAC.

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磷酸钙改性对再生骨料和混凝土界面过渡区的影响

由于大量建筑垃圾占用了宝贵的土地并对环境造成危害，因此回收利用建筑固体废弃物已成为当务之急。为了应对在混凝土中使用再生骨料（RA）时在性能和界面过渡区（ITZ）方面的挑战，我们开发了一种磷酸钙（CaP）含量较低的改良配方，以提高 RA 的性能。研究发现，当 CaP 与 RA 的质量比达到 0.001 g/g 时，通过预涂层处理，RA 的物理性能得到显著改善，与对照组相比，再生骨料混凝土（RAC）的抗压强度提高了 31.52%。对 CaP 作用机理的深入分析显示，CaP 在 RA 表面形成的活性层通过 Ca2+ 和 PO₄3- 离子的持续释放，促进了缓慢的水解-水化耦合反应。这一过程以及 C-S-H 凝胶、碳化产物和硫酸根离子的固相反应有效地改善了孔隙结构，使比表面积增加了 47.36%，裂纹宽度减少了 78.95%。此外，改性 RA 与新硬化砂浆之间的粘结强度测试表明，粘结强度提高了 30.29%，直接证明了 CaP 在增强 RAC 中 ITZ 方面的有效性。

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Cement and Concrete Composites

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