Unlocking the Potential of Dolomite for Developing More Sustainable Cementitious Materials through Partial Calcination

IF 7.1 1区化学 Q1 CHEMISTRY, MULTIDISCIPLINARY

ACS Sustainable Chemistry & Engineering Pub Date : 2024-10-21 DOI:10.1021/acssuschemeng.4c06486

Yukun Qin, Xiong Qian, Yong Tao, Chuanlin Hu, Fazhou Wang

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Abstract

Waste dolomite powder, a widely available industrial byproduct, has recently gained attention as a potential supplementary cementitious material. However, its inert reactivity challenges its potential for substantial cement replacement. This study explores the effectiveness of partially calcined dolomite (PCD) integrated with calcined clay for a high cement substitution level. A novel partial calcination method is introduced to optimize the decomposition of MgCO₃ and CaCO₃ to produce a core–shell structure with a highly reactive external CaO/MgO layer and a dense internal core of CaCO₃ and MgO. This configuration significantly enhances the formation of calcium silicate hydrate gels and carboaluminate phases, improving the overall strength of the material by over 90% at both 7 and 28 days compared to the sample with uncalcined dolomite. Additionally, the formulation of the proposed materials reduces CO₂ emission by 43% and energy consumption by 47% without sacrificing compressive strength. This innovative calcination technique broadens the application of waste dolomite in the development of sustainable cementitious materials.

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通过部分煅烧释放白云石的潜力，开发更具可持续性的水泥基材料

废白云石粉是一种广泛存在的工业副产品，最近作为一种潜在的补充胶凝材料受到关注。然而，白云石的惰性反应对其大量替代水泥的潜力提出了挑战。本研究探讨了部分煅烧白云石（PCD）与煅烧粘土整合在一起以实现高水泥替代等级的有效性。研究采用了一种新颖的部分煅烧方法来优化 MgCO3 和 CaCO3 的分解，从而产生一种核壳结构，其外部是高活性的 CaO/MgO 层，内部是由 CaCO3 和 MgO 组成的致密核心。这种结构大大增强了硅酸钙水合物凝胶和碳铝酸盐相的形成，与含有未煅烧白云石的样品相比，材料在 7 天和 28 天时的整体强度提高了 90% 以上。此外，在不影响抗压强度的前提下，拟议材料的配方可减少 43% 的二氧化碳排放量和 47% 的能源消耗。这种创新的煅烧技术拓宽了废白云石在可持续水泥基材料开发中的应用。

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来源期刊

ACS Sustainable Chemistry & Engineering CHEMISTRY, MULTIDISCIPLINARY-ENGINEERING, CHEMICAL

CiteScore

13.80

自引率

4.80%

发文量

1470

审稿时长

1.7 months

期刊介绍： ACS Sustainable Chemistry & Engineering is a prestigious weekly peer-reviewed scientific journal published by the American Chemical Society. Dedicated to advancing the principles of green chemistry and green engineering, it covers a wide array of research topics including green chemistry, green engineering, biomass, alternative energy, and life cycle assessment. The journal welcomes submissions in various formats, including Letters, Articles, Features, and Perspectives (Reviews), that address the challenges of sustainability in the chemical enterprise and contribute to the advancement of sustainable practices. Join us in shaping the future of sustainable chemistry and engineering.