AI Article Synopsis
- Multi-wall carbon nanotubes (MWCNTs) can enhance the mechanical and piezoelectric properties of white cement mortar used in restoring cultural monuments.
- The study explored the effects of various concentrations of MWCNTs, surfactants, and a superplasticizer, revealing that while some surfactants reduced electrical resistivity, they significantly weakened mechanical properties.
- The superplasticizer Ceresit CC198 was identified as the best dispersion agent, with optimal results achieved using 0.8 wt% of it and 0.2 wt% MWCNTs, leading to improved strength and reduced electrical resistivity of the cement composite.
Article Abstract
Multi-wall carbon nanotubes (MWCNTs) exhibit exceptional mechanical and electrical properties and can be used to improve the mechanical and piezoelectric properties of cement-based materials. In the present study, the effect of different MWCNT concentrations as well as different types of surfactants and a superplasticizer were examined to reinforce, at the nanoscale, a white cement mortar typically used for the restoration of monuments of cultural heritage. It was shown that sodium dodecylbenzenesulfonate (SDBS) and Triton X-100 surfactants slightly decreased the white cement mortars' electrical resistivity (by an average of 10%), however, the mechanical properties were essentially decreased by an average of 60%. The most suitable dispersion agent for the MWCNTs proved to be the superplasticizer Ceresit CC198, and its optimal concentration was investigated for different MWCNT concentrations. Carboxylation of the MWCNT surface with nitric acid did not improve the mechanical performance of the white cement nanocomposites. The parametric experimental study showed that the optimum combination of 0.8 wt% of cement superplasticizer and 0.2 wt% of cement MWCNTs resulted in a 60% decrease in the electrical resistivity; additionally, the flexural and compressive strengths were both increased by approximately 25% and 10%, respectively.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8953568 | PMC |
| http://dx.doi.org/10.3390/nano12061031 | DOI Listing |
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