A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Enhanced properties of cement mortars with multilayer graphene nanoparticles
HighlightsIncorporating MLG into OPC mortars substantially increase their strength.Thermal stresses are reduced and hydration reactions increase within the composite matrix.Dispersing MLG with isopropanol prevents the flakes from agglomerating very efficiently.The addition of MLG has relatively low costs and may be extended to a large scale.
AbstractThe present work aims to combine multilayer graphene (MLG) nanoparticles with Ordinary Portland Cement (OPC) mortar specimens, evaluating possible improvements on their mechanical properties and ultimately coming up with an ideal and effective concentration for future applications. Mortars with water/cement ratio of 0.4, MLG dosage varying from 0.015 to 0.033% by weight of cement and sand at a proportion of 3× the weight of cement were prepared. 50×100mm cylindrical specimens were shaped and subjected to compressive and splitting tensile strength tests at the ages of 3, 7 and 28days. In addition, SEM micrographs and metallographic images were collected and analyzed in order to better characterize the sample’s morphology and also in attempt of explaining the MLG influence on cement paste. The optimal tensile strength was achieved with samples designed with MLG dosage of 0.033%, for which the corresponding increases were 100.0, 144.4 and 131.6%, after 3, 7 and 28days, respectively, compared with samples without MLG. On the other hand, the optimal compressive strength increases were obtained with samples designed with MLG dosage of 0.021%, with improvements of 63.6, 94.1 and 95.7% after 3, 7 and 28days, respectively, compared with samples without MLG. The addition of MLG is believed to accelerate cement hydration reactions, reduce the pore volume and harden cement properties. An improvement in thermal conductivity is also associated to MLG incorporation, and this favorable heat transfer in OPC-based mortars probably promoted the observed changes in the composite chemical structure and mechanical properties herein analyzed.
Enhanced properties of cement mortars with multilayer graphene nanoparticles
HighlightsIncorporating MLG into OPC mortars substantially increase their strength.Thermal stresses are reduced and hydration reactions increase within the composite matrix.Dispersing MLG with isopropanol prevents the flakes from agglomerating very efficiently.The addition of MLG has relatively low costs and may be extended to a large scale.
AbstractThe present work aims to combine multilayer graphene (MLG) nanoparticles with Ordinary Portland Cement (OPC) mortar specimens, evaluating possible improvements on their mechanical properties and ultimately coming up with an ideal and effective concentration for future applications. Mortars with water/cement ratio of 0.4, MLG dosage varying from 0.015 to 0.033% by weight of cement and sand at a proportion of 3× the weight of cement were prepared. 50×100mm cylindrical specimens were shaped and subjected to compressive and splitting tensile strength tests at the ages of 3, 7 and 28days. In addition, SEM micrographs and metallographic images were collected and analyzed in order to better characterize the sample’s morphology and also in attempt of explaining the MLG influence on cement paste. The optimal tensile strength was achieved with samples designed with MLG dosage of 0.033%, for which the corresponding increases were 100.0, 144.4 and 131.6%, after 3, 7 and 28days, respectively, compared with samples without MLG. On the other hand, the optimal compressive strength increases were obtained with samples designed with MLG dosage of 0.021%, with improvements of 63.6, 94.1 and 95.7% after 3, 7 and 28days, respectively, compared with samples without MLG. The addition of MLG is believed to accelerate cement hydration reactions, reduce the pore volume and harden cement properties. An improvement in thermal conductivity is also associated to MLG incorporation, and this favorable heat transfer in OPC-based mortars probably promoted the observed changes in the composite chemical structure and mechanical properties herein analyzed.
Enhanced properties of cement mortars with multilayer graphene nanoparticles
e Silva, Rodrigo Alves (author) / de Castro Guetti, Paulo (author) / da Luz, Mário Sérgio (author) / Rouxinol, Francisco (author) / Gelamo, Rogério Valentim (author)
Construction and Building Materials ; 149 ; 378-385
2017-05-17
8 pages
Article (Journal)
Electronic Resource
English
Enhanced properties of cement mortars with multilayer graphene nanoparticles
| British Library Online Contents | 2017
Enhanced properties of cement mortars with multilayer graphene nanoparticles
| Online Contents | 2017
Enhanced properties of cement mortars with multilayer graphene nanoparticles
| British Library Online Contents | 2017
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Properties of Cement Mortars Mixed with SiO2 and CaCO3 Nanoparticles
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