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Tailoring an engineered cementitious composite with enhanced mechanical performance at ambient and elevated temperatures using graphene oxide and crumb rubber

Isyaka Abdulkadir, Bashar S. Mohammed, Ahmad Mahamad Al-Yacouby, Lee Woen Ean, T. Tafsirojjaman

2024Journal of Materials Research and Technology15 citationsDOIOpen Access PDF

Abstract

With the increased use of engineered cementitious composite (ECC) in closed environments and as a structural material, it is necessary to fully understand its performance under elevated temperatures. This research investigates the response of ECC to ambient and elevated temperatures and addresses the issue of explosive spalling by incorporating graphene oxide (GO) and crumb rubber (CR). Twenty GO-modified rubberized ECC mixes were designed using Response surface methodology (RSM), considering GO content, GO concentration for CR pretreatment, CR replacement of fine aggregate, and elevated temperature as the input variables. Results show that mixes with GO and GO-treated CR outperform those without GO or untreated CR at ambient and elevated temperatures. Response predictive models exhibited high coefficient of determination (R2) values ranging from 84 % to 96 %. Multi-objective optimization yielded optimum input factors, resulting in improved mechanical properties that were experimentally validated to confirm the accuracy of the developed models.

Topics & Concepts

Materials scienceSpallGrapheneCrumb rubberComposite materialComposite numberOxideResponse surface methodologyNatural rubberCementitiousGeopolymerExplosive materialNanotechnologyCompressive strengthMetallurgyCementComputer scienceMachine learningOrganic chemistryChemistryFire effects on concrete materialsInnovative concrete reinforcement materialsConcrete and Cement Materials Research
Tailoring an engineered cementitious composite with enhanced mechanical performance at ambient and elevated temperatures using graphene oxide and crumb rubber | Litcius