Modelling and optimization of the mechanical properties of engineered cementitious composite containing crumb rubber pretreated with graphene oxide using response surface methodology
One of the biggest obstacles to using crumb rubber (CR) in cementitious composites for structural applications is its adverse effects on mechanical strength. This is caused by the poor bonding between the CR and the hardened cement paste. The problem persists despite several CR pretreatment methods...
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2021
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oai:scholars.utp.edu.my:295812023-02-03T13:35:47Z http://scholars.utp.edu.my/id/eprint/29581/ Modelling and optimization of the mechanical properties of engineered cementitious composite containing crumb rubber pretreated with graphene oxide using response surface methodology Abdulkadir, I. Mohammed, B.S. Liew, M.S. Wahab, M.M.A. One of the biggest obstacles to using crumb rubber (CR) in cementitious composites for structural applications is its adverse effects on mechanical strength. This is caused by the poor bonding between the CR and the hardened cement paste. The problem persists despite several CR pretreatment methods proposed in different studies. This research aims to investigate a novel approach to CR pretreatment using graphene oxide (GO). The effect of GO concentration (GOC) and pretreated CR as a partial substitute to fine aggregate on the mechanical properties of ECC has been investigated. Using response surface methodology (RSM), 16 experimental runs having varying combinations and levels of GOC (0, 0.25, 0.5, 0.75, and 1.0 mg/ml) and CR replacement (1, 3, and 5 by volume) of fine aggregate as the independent variables have been tested for compressive, flexural, tensile strengths and strain capacity (CS, FS, TS, and TC) as the responses. Results show an increase in the mechanical strengths with higher GOC attributed to higher reactivity and better bonding at the CR and hardened cement matrix interface. At a 5 GO-CR replacement, there is a 50.3, 70.4, and 68.3 improvement in CS, FS, and TS between the control mix with 0 mg/ml GOC and the mix with 1.0 mg/ml GOC. Response surface models to predict the mechanical strengths have been developed and validated using ANOVA with R2 values ranging from 94.13 to 99.07 for all the models. Multi-objective optimization has been performed and experimentally validated, with the predicted and experimental results having<5 error. © 2021 Elsevier Ltd Elsevier Ltd 2021 Article NonPeerReviewed Abdulkadir, I. and Mohammed, B.S. and Liew, M.S. and Wahab, M.M.A. (2021) Modelling and optimization of the mechanical properties of engineered cementitious composite containing crumb rubber pretreated with graphene oxide using response surface methodology. Construction and Building Materials, 310. https://www.scopus.com/inward/record.uri?eid=2-s2.0-85118724675&doi=10.1016%2fj.conbuildmat.2021.125259&partnerID=40&md5=bd30a7333f95b42e4858710b70caad06 |
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One of the biggest obstacles to using crumb rubber (CR) in cementitious composites for structural applications is its adverse effects on mechanical strength. This is caused by the poor bonding between the CR and the hardened cement paste. The problem persists despite several CR pretreatment methods proposed in different studies. This research aims to investigate a novel approach to CR pretreatment using graphene oxide (GO). The effect of GO concentration (GOC) and pretreated CR as a partial substitute to fine aggregate on the mechanical properties of ECC has been investigated. Using response surface methodology (RSM), 16 experimental runs having varying combinations and levels of GOC (0, 0.25, 0.5, 0.75, and 1.0 mg/ml) and CR replacement (1, 3, and 5 by volume) of fine aggregate as the independent variables have been tested for compressive, flexural, tensile strengths and strain capacity (CS, FS, TS, and TC) as the responses. Results show an increase in the mechanical strengths with higher GOC attributed to higher reactivity and better bonding at the CR and hardened cement matrix interface. At a 5 GO-CR replacement, there is a 50.3, 70.4, and 68.3 improvement in CS, FS, and TS between the control mix with 0 mg/ml GOC and the mix with 1.0 mg/ml GOC. Response surface models to predict the mechanical strengths have been developed and validated using ANOVA with R2 values ranging from 94.13 to 99.07 for all the models. Multi-objective optimization has been performed and experimentally validated, with the predicted and experimental results having<5 error. © 2021 Elsevier Ltd |
format |
Article |
author |
Abdulkadir, I. Mohammed, B.S. Liew, M.S. Wahab, M.M.A. |
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Abdulkadir, I. Mohammed, B.S. Liew, M.S. Wahab, M.M.A. Modelling and optimization of the mechanical properties of engineered cementitious composite containing crumb rubber pretreated with graphene oxide using response surface methodology |
author_facet |
Abdulkadir, I. Mohammed, B.S. Liew, M.S. Wahab, M.M.A. |
author_sort |
Abdulkadir, I. |
title |
Modelling and optimization of the mechanical properties of engineered cementitious composite containing crumb rubber pretreated with graphene oxide using response surface methodology |
title_short |
Modelling and optimization of the mechanical properties of engineered cementitious composite containing crumb rubber pretreated with graphene oxide using response surface methodology |
title_full |
Modelling and optimization of the mechanical properties of engineered cementitious composite containing crumb rubber pretreated with graphene oxide using response surface methodology |
title_fullStr |
Modelling and optimization of the mechanical properties of engineered cementitious composite containing crumb rubber pretreated with graphene oxide using response surface methodology |
title_full_unstemmed |
Modelling and optimization of the mechanical properties of engineered cementitious composite containing crumb rubber pretreated with graphene oxide using response surface methodology |
title_sort |
modelling and optimization of the mechanical properties of engineered cementitious composite containing crumb rubber pretreated with graphene oxide using response surface methodology |
publisher |
Elsevier Ltd |
publishDate |
2021 |
url |
http://scholars.utp.edu.my/id/eprint/29581/ https://www.scopus.com/inward/record.uri?eid=2-s2.0-85118724675&doi=10.1016%2fj.conbuildmat.2021.125259&partnerID=40&md5=bd30a7333f95b42e4858710b70caad06 |
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13.214268 |