Gray correlation analysis of factors influencing compressive strength and durability of nano-SiO2 and PVA fiber reinforced geopolymer mortar

To investigate the mechanical properties and durability of nano-SiO , polyvinyl alcohol (PVA) fiber-modified fly ash (FA), and metakaolin (MK)-based geopolymer mortar (FMGM), tests of compressive strength, electrical flux, freeze–thaw cycles, and sulfate dry and wet cycles were conducted. Based on t...

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Bibliographic Details
Published in:Nanotechnology reviews (Berlin) 2022-12, Vol.11 (1), p.3195-3206
Main Authors: Zhang, Peng, Zhang, Xuemei, Zhang, Yamin, Zheng, Yuanxun, Wang, Tingya
Format: Article
Language:English
Subjects:
Compressive strength
Correlation analysis
Dosage
Durability
Electric flux
Fiber reinforced materials
Fluctuations
Fly ash
Freeze thaw cycles
Freeze-thawing
geopolymer mortar
Geopolymers
gray correlation
Mathematical analysis
Mathematical problems
Mechanical properties
Metakaolin
Mixtures
Mortars (material)
Polyvinyl alcohol
Silicon dioxide
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Summary:To investigate the mechanical properties and durability of nano-SiO , polyvinyl alcohol (PVA) fiber-modified fly ash (FA), and metakaolin (MK)-based geopolymer mortar (FMGM), tests of compressive strength, electrical flux, freeze–thaw cycles, and sulfate dry and wet cycles were conducted. Based on the experimental results, combined with Dunn’s gray correlation theory analysis method, a mathematical analysis of the effect sensitivity of the contents of the four mixtures on the mechanical properties and durability of FMGM was carried out. The method of gray correlation analysis can solve the mathematical problem with partial unclear and uncertain information, and the method requires less data and less computation compared with other mathematical analysis method. The results showed that the gray correlation degree between the content of MK and the electric flux value is higher than the that of other comparison sequence and each reference sequence, while the gray correlation degree between the PVA fiber dosage and the loss rate of compressive strength is lower than that of other comparison sequence and each reference sequence. The influence of the four mixture contents on the compressive strength and mass loss rate was in the following decreasing order: MK and FA, PVA fiber, and nano-SiO . In addition, the influence of the four material mixture contents on the electric flux value and compressive strength loss rate was consistent in the following decreasing order: MK and FA, nano-SiO , and PVA fiber. Furthermore, the mechanical properties and durability reached the optimum when the PVA fiber content was 0.6% and the dosage of nano-SiO was 1.0%. The results of this study can provide a new method for the analysis and evaluation of mechanical properties and durability of nano-SiO and PVA fiber-reinforced FMGM in future.
ISSN:2191-9089
2191-9097
DOI:10.1515/ntrev-2022-0493