Limestone calcined clay cement: mechanical properties, crystallography, and microstructure development

IF 4.7 3区工程技术 Q1 CONSTRUCTION & BUILDING TECHNOLOGY Journal of Sustainable Cement-Based Materials Pub Date : 2023-04-03 DOI:10.1080/21650373.2022.2074911

Hao Sui, P. Hou, Yanming Liu, K. Sagoe-Crentsil, Felipe Basquiroto de Souza, W. Duan

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引用次数: 10

Abstract

Abstract Limestone calcined clay cement (LC3) holds promise as a new type of sustainable cement-based material, but the mechanisms underpinning its engineering performance are still poorly understood. Here, a metal intrusion-enhanced imaging approach was employed to quantitatively analyze and link the pore structure development of LC3 to its hydration process, i.e. solid-phase development, and mechanical performance. We found that the early age microstructural development in LC3 is inhomogeneous, with the perimeter of limestone particles displaying higher porosity relative to that surrounding calcined clay and clinker. At later ages, the formation of carboaluminates and calcium-aluminate-silicate-hydrates homogenized the overall microstructure of LC3, thereby delivering improved mechanical performance. Overall, our analysis suggested a more efficient particle packing in LC3 mixes, which decreases the volume/connectivity of micro-pores and can account for LC3’s notable flexural strength. These findings can assist the development of improved LC3 binder formulations alongside other ternary binders with possibly higher limestone additions.

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石灰石煅烧粘土水泥：力学性能、晶体学和微观结构发展

摘要石灰石煅烧粘土水泥（LC3）有望成为一种新型的可持续水泥基材料，但其工程性能的机理尚不清楚。在这里，采用了金属入侵增强成像方法来定量分析LC3的孔结构发展及其水化过程，即固相发展和力学性能，并将其联系起来。我们发现，LC3中的早期微观结构发展是不均匀的，石灰石颗粒的周边相对于煅烧粘土和熟料的周边显示出更高的孔隙率。在后期，碳铝酸盐和铝酸硅酸钙水合物的形成使LC3的整体微观结构均匀化，从而提高了机械性能。总体而言，我们的分析表明，在LC3混合物中存在更有效的颗粒填充，这降低了微孔的体积/连通性，并可以解释LC3显著的弯曲强度。这些发现可以帮助开发改进的LC3粘合剂配方，以及可能添加更高石灰石的其他三元粘合剂。

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来源期刊

Journal of Sustainable Cement-Based Materials Multiple-

CiteScore

6.60

自引率

15.90%

发文量

期刊介绍： The Journal of Sustainable Cement-Based Materials aims to publish theoretical and applied researches on materials, products and structures that incorporate cement. The journal is a forum for discussion of research on manufacture, hydration and performance of cement-based materials; novel experimental techniques; the latest analytical and modelling methods; the examination and the diagnosis of real cement and concrete structures; and the potential for improved cement-based materials. The journal welcomes original research papers, major reviews, rapid communications and selected conference papers. The Journal of Sustainable Cement-Based Materials covers a wide range of topics within its subject category, including but are not limited to: • raw materials and manufacture of cement • mixing, rheology and hydration • admixtures • structural characteristics and performance of cement-based materials • characterisation techniques and modeling • use of fibre in cement based-materials • degradation and repair of cement-based materials • novel testing techniques and applications • waste management