Download PDFOpen PDF in browserImproving Cement Paste Performance with Temperature-Sensitive PNIPAM Hydrogel ParticlesEasyChair Preprint 1405826 pages•Date: July 20, 2024AbstractIn the quest to advance construction materials, enhancing the performance of cement paste is critical, particularly in addressing challenges related to workability and shrinkage. This study investigates the potential of temperature-sensitive poly(N-isopropylacrylamide) (PNIPAM) hydrogel particles to significantly improve the properties of cement paste. PNIPAM hydrogels exhibit unique thermo-responsive behavior, transitioning at a specific temperature, which allows them to modulate water retention and release within the cement matrix. Our research outlines the synthesis and functionalization of PNIPAM hydrogel particles to ensure compatibility with cement paste. Experimental evaluations reveal that the incorporation of these hydrogels markedly enhances workability, resulting in improved fluidity and ease of mixing without compromising setting time. Furthermore, PNIPAM hydrogels demonstrate a notable reduction in both plastic and drying shrinkage, addressing a major cause of structural integrity issues in concrete. The study delves into the underlying mechanisms by which PNIPAM hydrogels interact with the cement matrix, optimizing water management and reducing internal stresses. Comparative analyses with traditional additives underscore the superior performance of PNIPAM hydrogels. Practical applications in various construction scenarios are explored, highlighting economic and environmental benefits. Keyphrases: N-isopropylacrylamide, PNIPAM Hydrogel, shrinkage
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