An investigation on the impact of combined microfiber-microcrystalline cellulose addition on the performance of Portland cement composites

Abstract The study of the effects of cellulosic materials as additives in matrices based on mineral binders is essential for the development of high-performance and more durable construction materials. In this context, the present research aims to propose composite systems incorporating cellulose mi...

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Bibliographic Details
Published in:Revista IBRACON de estruturas e materiais 2025, Vol.18 (1)
Main Authors: Bilcati, GĂ©ssica Katalyne, Costa, Marienne do Rocio de Mello da, Tamura, Sarah Honorato Lopes da Silva, Holzmann, Henrique Ajuz
Format: Article
Language:eng ; por
Subjects:
cellulose microfiber
cement composite
crystalline microcellulose
ENGINEERING, CIVIL
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Summary:Abstract The study of the effects of cellulosic materials as additives in matrices based on mineral binders is essential for the development of high-performance and more durable construction materials. In this context, the present research aims to propose composite systems incorporating cellulose microparticles and microfibers into cementitious matrices. The proposed systems were developed using CP V ARI cement, with cellulose microfiber (FC) contents of 0.5%, 1%, and 1.5%, along with crystalline microcellulose (MCC) contents of 0.4%, 0.6%, and 0.8%. The impact of cellulose microfiber and crystalline microcellulose on compressive strength, flexural tensile strength, mineralogy, and microstructure of cementitious composites was evaluated. The gradual increase in the combined additions of cellulose microfiber and crystalline microcellulose led to a reduction in mechanical properties. The diffraction patterns of the FC-MCC cellulose-added composites were similar to those of Portland cement composites without additives. The combinations of FC 0.5-MCC 0.4, FC 1.0-MCC 0.4, and FC 0.5-MCC 0.6 contents promoted a higher degree of hydration, resulting in superior compressive strength performance compared to cementitious composites without these materials.
ISSN:1983-4195
1983-4195
DOI:10.1590/s1983-41952025000800005