Influence of synthesized nanomaterials in the strength and durability of cementitious composites

The development of high-performance materials has been prompted by a constantly expanding infrastructure with complex technical constraints. Performance modification of cement composites using nanoparticles has been thoroughly researched to address demands in the construction industry. This cutting-...

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Published inCase Studies in Construction Materials Vol. 18; p. e02197
Main Authors Abdalla, Jamal A., Hawileh, Rami A., Bahurudeen, A., Jittin, Syed Ahmed Kabeer, K.I., Thomas, B.S.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.07.2023
Elsevier
Subjects
Graphene oxide and Carbon nanotubes
Nano-Al2O3
Nano-SiO2
Supplementary cementitious material
PP
Supplementary cementitious material
C-S-H
UHPC
Nano-Al2O3
Graphene oxide and Carbon nanotubes
AAC
FESEM
GO
RHA
SWNT
ITZ
nS/Nano-SiO2
NA/Nano Al2O3
MWNT
CNTs
RAC
RH
Nano-SiO2
CNF
ISAT
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Summary:The development of high-performance materials has been prompted by a constantly expanding infrastructure with complex technical constraints. Performance modification of cement composites using nanoparticles has been thoroughly researched to address demands in the construction industry. This cutting-edge review examines the various parameters of cement composites, such as fresh properties, mechanical properties, and durability characteristics that can be improved using synthesized nanomaterials such as nano-SiO2, nano-Al2O3, graphene oxide, and carbon nanotubes, as well as their inherent limitations. Based on the detailed review, the ideal replacement levels of nano-SiO2 (1–4 wt%), nano-Al2O3 (1–3 wt%), graphene oxide (0.05–0.1 wt%), and carbon nanotubes (0.1–0.5 wt%) can be recommended for the practical applications. It has been noted that the addition of synthesized nanomaterials tends to lower the workability of cement composites. However, nanoalumina, graphene oxide, nano-silica, and carbon nanotubes improve mechanical qualities such as compressive strength, flexural strength, and resistance to abrasion of the blended cementitious system at an optimum replacement level. Similarly, resistance against chemical attacks was imporved with the addition nano-silica, while the addition of graphene oxide in cement is more effective against chloride migration and fire exposure. The overall effect of synthesized nanomaterials is also compared in the study.
ISSN:2214-5095
2214-5095
DOI:10.1016/j.cscm.2023.e02197