Numerical modeling of rebar-matrix bond behaviors of nano-SiO2 and PVA fiber reinforced geopolymer composites

Numerical modeling of rebar-matrix bond behaviors of nano-SiO2 and PVA fiber reinforced geopolymer composites

Geopolymer composites represent promising alternatives to ordinary Portland cement materials, whose properties can be improved by mixing polyvinyl alcohol (PVA) fibers and nano-SiO2 (NS). In this study, bond tests and numerical modeling were conducted to investigate the effects of PVA fibers and NS...

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Bibliographic Details
Published in:Ceramics international Vol. 47; no. 8; pp. 11727 - 11737
Main Authors: Zhang, Peng, Gao, Zhen, Wang, Juan, Wang, Kexun
Format: Journal Article
Language:English
Published: Elsevier Ltd 15-04-2021
Subjects:
Bond behavior
Geopolymer composites
Nano-SiO2
Numerical model
PVA fiber
Bond behavior
Geopolymer composites
PVA fiber
Numerical model
Nano-SiO2
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Summary:Geopolymer composites represent promising alternatives to ordinary Portland cement materials, whose properties can be improved by mixing polyvinyl alcohol (PVA) fibers and nano-SiO2 (NS). In this study, bond tests and numerical modeling were conducted to investigate the effects of PVA fibers and NS on the rebar-matrix bond behaviors of geopolymer composites. A modified mathematical model derived from the Harajli model and a finite element numerical model based on the Mori-Tanaka homogenization and the Tsai-Hill failure criterion were proposed. The prediction results of the numerical and modified mathematical models were compared to those of an existing model and the experiment. The results showed that PVA fibers and NS can effectively improve the bond strength and toughness of the geopolymer composites and that the bond behavior is optimized when the PVA fiber content is within 0.6%–0.8% and the NS content is 1.5%–2%. The numerical and modified mathematical models can effectively reflect the rebar-matrix bond behaviors of the NS and PVA fiber reinforced geopolymer composites. The proposed numerical model exhibits high prediction accuracy, providing an effective guide and reference for predicting the bond behaviors of rebar and geopolymer composites.
ISSN:0272-8842
1873-3956
DOI:10.1016/j.ceramint.2021.01.012