Abstract
Incorporation of graphene oxide (GO) and silica fume (SF) to cement composites enhances their mechanical properties if suitable proportional amounts of GO and SF are used. This study presents a simplified approach to determine experimentally the optimum GO and SF contents that should be added to the cementitious mixture to obtain a proper and stable dispersion of GO sheets within the cement matrix. Composite mortar specimens with different GO and SF contents were designed and tested under flexural and compression loading. The phase formation and the microstructure of selected samples were also investigated to give an in-depth interpretation of the test results. The main criterion to determine the GO and SF contents was the ultimate strength required of the GO–cement composite. It was found that there was a composite interaction between the SF and GO contents in the cementitious mixture, which an envelope surface could describe if all other mix design parameters are kept constant.
Highlights
In most series with low graphene oxide (GO) ratios, the general trend is that the increase in silica fume (SF) percentage increases the tensile strength enhancement up to a certain level
The maximum enhancement achieved at seven days was 17% for specimen S7G5, whereas the maximum enhancement achieved was 13% and 12% in specimens S0G3 and S5G0 when the GO or SF was individually incorporated in the mixture, respectively
This study investigated the effective use of GO and SF as nanoadditives to cementitious material
Summary
Carbon nanomaterials have been widely used to enhance the mechanical properties of cementitious composites [1,2,3,4,5,6,7]. They can refine the composites’ microstructure to obstruct the ingression of aggressive materials [8,9,10,11] or improve electrical conductivity [12,13]. The basic structural unit of all allotropes of these carbon nanomaterials is graphene [14]. It is a 2D single layer of carbon atomic crystal arranged in a hexagonal lattice
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