Assessment on engineering properties and CO2 emissions of recycled aggregate concrete incorporating waste products as supplements to Portland cement
This paper presents an experimental investigation on the durability properties and carbon dioxide (CO 2 ) emissions of concrete developed using waste products. The concrete comprised of recycled concrete aggregate (RA) as a complete coarse aggregate replacement. In addition, rice husk ash (RHA), pal...
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my.um.eprints.225282019-09-24T06:44:18Z http://eprints.um.edu.my/22528/ Assessment on engineering properties and CO2 emissions of recycled aggregate concrete incorporating waste products as supplements to Portland cement Alnahhal, Mohammed Fouad Alengaram, Ubagaram Johnson Jumaat, Mohd Zamin Abutaha, Fuad Alqedra, Mamoun A. Nayaka, Ramappa Ramesh TA Engineering (General). Civil engineering (General) This paper presents an experimental investigation on the durability properties and carbon dioxide (CO 2 ) emissions of concrete developed using waste products. The concrete comprised of recycled concrete aggregate (RA) as a complete coarse aggregate replacement. In addition, rice husk ash (RHA), palm oil fuel ash (POFA) and palm oil clinker powder (POCP) were used as replacement materials for cement at levels up to 30%. The supplementary cementitious materials (SCMs) were used in RA concrete with the aim of reducing the dependency on cement as a stand-alone binder. The compressive strength, water absorption, chloride-ion penetration and electrical resistivity were investigated for RA concrete containing SCMs. Moreover, the residual compressive strength was also examined along with the weight loss to check the elevated temperature resistance of RA concrete with SCMs. The results revealed that the use of 30% RHA as SCM produced the highest compressive strength efficiency of 0.143 MPa/kg cement among all mixes at the age of 90 days. In addition, a significant enhancement was observed for the durability-related properties at later ages, although the engineering properties of RA concrete containing SCMs was low at the age of 28 days. The thermogravimetric (TG) analysis indicated that the RHA is more effective as a pozzolanic additive than POFA and POCP. The CO 2 emissions from RA concrete were reduced by approximately 29% when it was incorporated with 30% SCM, where the eco-strength efficiency showed the highest values at 20% cement replacement level of 20%. Elsevier 2018 Article PeerReviewed Alnahhal, Mohammed Fouad and Alengaram, Ubagaram Johnson and Jumaat, Mohd Zamin and Abutaha, Fuad and Alqedra, Mamoun A. and Nayaka, Ramappa Ramesh (2018) Assessment on engineering properties and CO2 emissions of recycled aggregate concrete incorporating waste products as supplements to Portland cement. Journal of Cleaner Production, 203. pp. 822-835. ISSN 0959-6526 https://doi.org/10.1016/j.jclepro.2018.08.292 doi:10.1016/j.jclepro.2018.08.292 |
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TA Engineering (General). Civil engineering (General) Alnahhal, Mohammed Fouad Alengaram, Ubagaram Johnson Jumaat, Mohd Zamin Abutaha, Fuad Alqedra, Mamoun A. Nayaka, Ramappa Ramesh Assessment on engineering properties and CO2 emissions of recycled aggregate concrete incorporating waste products as supplements to Portland cement |
| description |
This paper presents an experimental investigation on the durability properties and carbon dioxide (CO 2 ) emissions of concrete developed using waste products. The concrete comprised of recycled concrete aggregate (RA) as a complete coarse aggregate replacement. In addition, rice husk ash (RHA), palm oil fuel ash (POFA) and palm oil clinker powder (POCP) were used as replacement materials for cement at levels up to 30%. The supplementary cementitious materials (SCMs) were used in RA concrete with the aim of reducing the dependency on cement as a stand-alone binder. The compressive strength, water absorption, chloride-ion penetration and electrical resistivity were investigated for RA concrete containing SCMs. Moreover, the residual compressive strength was also examined along with the weight loss to check the elevated temperature resistance of RA concrete with SCMs. The results revealed that the use of 30% RHA as SCM produced the highest compressive strength efficiency of 0.143 MPa/kg cement among all mixes at the age of 90 days. In addition, a significant enhancement was observed for the durability-related properties at later ages, although the engineering properties of RA concrete containing SCMs was low at the age of 28 days. The thermogravimetric (TG) analysis indicated that the RHA is more effective as a pozzolanic additive than POFA and POCP. The CO 2 emissions from RA concrete were reduced by approximately 29% when it was incorporated with 30% SCM, where the eco-strength efficiency showed the highest values at 20% cement replacement level of 20%. |
| format |
Article |
| author |
Alnahhal, Mohammed Fouad Alengaram, Ubagaram Johnson Jumaat, Mohd Zamin Abutaha, Fuad Alqedra, Mamoun A. Nayaka, Ramappa Ramesh |
| author_facet |
Alnahhal, Mohammed Fouad Alengaram, Ubagaram Johnson Jumaat, Mohd Zamin Abutaha, Fuad Alqedra, Mamoun A. Nayaka, Ramappa Ramesh |
| author_sort |
Alnahhal, Mohammed Fouad |
| title |
Assessment on engineering properties and CO2 emissions of recycled aggregate concrete incorporating waste products as supplements to Portland cement |
| title_short |
Assessment on engineering properties and CO2 emissions of recycled aggregate concrete incorporating waste products as supplements to Portland cement |
| title_full |
Assessment on engineering properties and CO2 emissions of recycled aggregate concrete incorporating waste products as supplements to Portland cement |
| title_fullStr |
Assessment on engineering properties and CO2 emissions of recycled aggregate concrete incorporating waste products as supplements to Portland cement |
| title_full_unstemmed |
Assessment on engineering properties and CO2 emissions of recycled aggregate concrete incorporating waste products as supplements to Portland cement |
| title_sort |
assessment on engineering properties and co2 emissions of recycled aggregate concrete incorporating waste products as supplements to portland cement |
| publisher |
Elsevier |
| publishDate |
2018 |
| url |
http://eprints.um.edu.my/22528/ https://doi.org/10.1016/j.jclepro.2018.08.292 |
| _version_ |
1646210266881327104 |
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13.211869 |