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Experimental Study on the Activation Mechanism of Residual Slag Micro Powder After Recycled Aggregate of Waste Concrete

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  • Shengbo Zhou

    (School of Civil Engineering and Architecture, Suqian University, Suqian 223800, China)

  • Kai Zhang

    (School of Civil Engineering and Architecture, Suqian University, Suqian 223800, China)

  • Shengjie Liu

    (School of Civil Engineering, Hohai University, Nanjing 210024, China)

  • Li Gao

    (School of Civil Engineering and Architecture, Suqian University, Suqian 223800, China)

  • Jian Wang

    (School of Civil Engineering and Architecture, Suqian University, Suqian 223800, China)

  • Xiaojie Wang

    (School of Civil Engineering and Architecture, Suqian University, Suqian 223800, China)

  • Mengyao Cui

    (School of Civil Engineering and Architecture, Suqian University, Suqian 223800, China)

  • Lu Guo

    (School of Civil Engineering and Architecture, Suqian University, Suqian 223800, China)

Abstract

This study investigated sustainable activation strategies for residual slag micro powder derived from recycled waste concrete aggregates, aiming to advance circular economy principles in construction materials. An experimental study was carried out to explore the activation mechanisms of slag micro powder from recycled waste concrete aggregates to enhance its utility in building materials. Three methods—mechanical grinding, high-temperature calcination, and mechanical grinding–thermal activation—were evaluated comparatively. The results showed high-temperature calcination at 750 °C for 10 min proved most effective, achieving a 95.85% activity index. High-temperature calcination may contribute to the release of active SiO 2 and Al 2 O 3 substances of slag micro powder, thereby improving the hydration performance of slag micro powder and its cement mortar’s compressive strength. The flexural strength of cement mortar after different activation treatments was also analyzed. Mechanical grinding alone showed limited benefits, only achieving a less than 65.59% activity index, while the combined method negatively impacted the mechanical properties of cement mortar samples. An SEM (scanning electron microscope) and EDS (energy dispersive X-ray spectrometer) microstructural analysis supported these findings, highlighting enhanced hydration product formation after calcination at 750 °C for 10 min. This work may contribute to sustainable construction practices through the resource-efficient utilization of industrial by-products.

Suggested Citation

  • Shengbo Zhou & Kai Zhang & Shengjie Liu & Li Gao & Jian Wang & Xiaojie Wang & Mengyao Cui & Lu Guo, 2025. "Experimental Study on the Activation Mechanism of Residual Slag Micro Powder After Recycled Aggregate of Waste Concrete," Sustainability, MDPI, vol. 17(13), pages 1-17, July.
    • Handle: RePEc:gam:jsusta:v:17:y:2025:i:13:p:6046-:d:1692772
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    References listed on IDEAS

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    1. Jiawei Wu & Xunrong Ye & Huachun Cui, 2025. "Recycled Materials in Construction: Trends, Status, and Future of Research," Sustainability, MDPI, vol. 17(6), pages 1-38, March.
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