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Hydroxylated Graphene: A Promising Reinforcing Nanofiller for Nanoengineered Cement Composites

Sen Yang, Wen Jia, Yuangui Wang, Weifu Zhang, Xiaoya Yuan

2021ACS Omega26 citationsDOIOpen Access PDF

Abstract

ions compared to GO. The effect of HO-G on the workability, mechanical strength, and chloride penetrability of a cement mortar was further studied. At a content of 0.03% by cement mass, HO-G provided 28.62 and 21.19% enhancements of compressive strength and 3.85 and 7.89% enhancements of flexural strength at 3 and 28 days, respectively, while the non-steady-state migration coefficient decreased by 31.51% compared to the reference mortar. Compared to GO, a lower dosage of HO-G exhibited a similar reinforcing effect to cement composites with little adverse impact on the fluidity of the fresh cement slurry. Moreover, the addition of HO-G could refine the pore structure, accelerate the hydration process of cement to some degree, and generate more hydration products so that the structure of the cement mortar was densified. Considering its environmentally friendly preparation, HO-G, as a promising reinforcing nanofiller, could provide a new solution to develop nanoengineered cement composites.

Topics & Concepts

Materials scienceGrapheneCementFlexural strengthComposite materialDispersion (optics)Compressive strengthAqueous solutionNanocompositeChemical engineeringNanotechnologyChemistryOrganic chemistryPhysicsEngineeringOpticsGraphene research and applicationsGraphene and Nanomaterials ApplicationsConcrete and Cement Materials Research
Hydroxylated Graphene: A Promising Reinforcing Nanofiller for Nanoengineered Cement Composites | Litcius