Influence of metakaolin content on the microstructure and strength in hardened LC3 paste

CEMENT Pub Date : 2025-03-01 DOI:10.1016/j.cement.2025.100138

Qi Luo , Xinyu Zhang , Junchao Yu , Guoqing Geng

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Abstract

This study systematically investigates the impact of varying metakaolin contents on the compressive strength and microstructure of hardened limestone calcined clay cement (LC³) paste. The findings reveal that increasing metakaolin content intensifies the aluminum sulfate reaction peak and accelerates its onset, while decreasing metakaolin leads to higher total calcium hydroxide (Ca(OH)₂) and calcium carbonate (CaCO₃) levels in the system. A specific threshold of 70 % metakaolin content is identified as optimal for pozzolanic activity; excess metakaolin remains unreacted. The addition of metakaolin refines the pore structure, reduces harmful large pores, and promotes the formation of ettringite and other hydration products, enhancing mechanical properties. Notably, a sample with 70 % metakaolin content exhibits higher compressive strength than one with 100 % metakaolin, indicating that metakaolin containing 30 % impurities (referred to as sand powder) demonstrates superior mechanical performance. These results support the development of LC³ as a commercially viable and eco-friendly alternative to Ordinary Portland Cement (OPC).

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CEMENT

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