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A Comprehensive Study of the Macro-Scale Performance of Graphene Oxide Enhanced Low Carbon Concrete

Thusitha Ginigaddara, Pasadi Devapura, Vanissorn Vimonsatit, M. L. Booy, Priyan Mendis, Rish Satsangi

2025Construction Materials7 citationsDOIOpen Access PDF

Abstract

This study presents a detailed and comprehensive investigation into the macro-scale performance, strength gain mechanisms, environment and economic performance of graphene oxide (GO)-enhanced low-emission concrete. A comprehensive experimental program evaluated fresh and hardened properties, including slump retention, bleeding, air content, compressive, flexural, and tensile strength, drying shrinkage, and elastic modulus. Scanning Electron Microscopy (SEM), energy-dispersive spectroscopy (EDS), Thermogravimetric analysis (TGA) and proton nuclear magnetic resonance (1H-NMR) was employed to examine microstructural evolution and early age water retention, confirming GO’s role in accelerating cement hydration and promoting C-S-H formation. Optimal performance was achieved at 0.05% GO (by binder weight), resulting in a 25% increase in 28-day compressive strength without compromising workability. This outcome is attributed to a tailored, non-invasive mixing strategy, wherein GO was pre-dispersed during synthesis and subsequently blended without the use of invasive mixing methods such as high shear mixing or ultrasonication. Fourier-transform infrared (FTIR) spectroscopy further validated the chemical compatibility of GO and PCE and confirmed the compatibility and efficiency of the admixture. Sustainability metrics, including embodied carbon and strength-normalized cost indices (USD/MPa), indicated that, although GO increased material cost, the overall cost-performance ratio remained competitive at breakeven GO prices. Enhanced efficiency also led to lower net embodied CO2 emissions. By integrating mechanical, microstructural, and environmental analyses, this study demonstrates GO’s multifunctional benefits and provides a robust basis for its industrial implementation in sustainable infrastructure.

Topics & Concepts

Materials scienceCompressive strengthThermogravimetric analysisUltimate tensile strengthGrapheneScanning electron microscopeFlexural strengthComposite materialFourier transform infrared spectroscopyOxideChemical engineeringNanotechnologyEngineeringMetallurgyConcrete and Cement Materials ResearchGraphene and Nanomaterials ApplicationsGraphene research and applications