The feasibility of improving impact resistance and strength properties of sustainable concrete composites by adding waste metalized plastic fibres
Waste plastic results in waste discarding disaster and consequently cause significant harms to the environment. The utilisation of industrial wastes in the production of sustainable concrete has attracted much consideration in recent years because of the low-cost of waste materials along with saving...
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my.utm.861082020-08-30T08:56:13Z http://eprints.utm.my/id/eprint/86108/ The feasibility of improving impact resistance and strength properties of sustainable concrete composites by adding waste metalized plastic fibres Mohammadhosseini, Hossein Md. Tahir, Mahmood Mohd. Sam, Abdul Rahman TA Engineering (General). Civil engineering (General) Waste plastic results in waste discarding disaster and consequently cause significant harms to the environment. The utilisation of industrial wastes in the production of sustainable concrete has attracted much consideration in recent years because of the low-cost of waste materials along with saving a significant place for landfill purposes and also enhance the performance of concrete. In this paper, the feasibility of waste metalized plastic (WMP) fibres and palm oil fuel ash (POFA) in the production of concrete composites was investigated by assessing the impact resistance and strength properties. Six concrete mixes containing WMP fibres varying from 0 to 1.25% with a length of 20 mm were made of ordinary Portland cement (OPC). A different six concrete mixtures with the same fibre content were made, where 20% POFA substituted OPC. The combination of WMP fibres and POFA reduced the slump values of concrete mixes. The inclusion of WMP fibres to OPC and POFA concrete mixes decreased the compressive strength. However, at the curing period of 91 days, the POFA-based mixes obtained higher compressive strength values than those of OPC-based mixtures. The positive interaction among WMP fibres and POFA consequently improved the impact resistance, flexural and splitting tensile strengths, thereby developing the energy absorption capacity and concrete ductility. It is concluded that the utilisation of WMP fibres and POFA in the production of sustainable concrete composites is potential to enhance the impact resistance and strength properties of concrete components that can be used in structural and non-structural applications. Elsevier Ltd 2018-04 Article PeerReviewed Mohammadhosseini, Hossein and Md. Tahir, Mahmood and Mohd. Sam, Abdul Rahman (2018) The feasibility of improving impact resistance and strength properties of sustainable concrete composites by adding waste metalized plastic fibres. Construction and Building Materials, 169 . pp. 223-236. ISSN 0950-0618 http://dx.doi.org/10.1016/j.conbuildmat.2018.02.210 |
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TA Engineering (General). Civil engineering (General) Mohammadhosseini, Hossein Md. Tahir, Mahmood Mohd. Sam, Abdul Rahman The feasibility of improving impact resistance and strength properties of sustainable concrete composites by adding waste metalized plastic fibres |
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Waste plastic results in waste discarding disaster and consequently cause significant harms to the environment. The utilisation of industrial wastes in the production of sustainable concrete has attracted much consideration in recent years because of the low-cost of waste materials along with saving a significant place for landfill purposes and also enhance the performance of concrete. In this paper, the feasibility of waste metalized plastic (WMP) fibres and palm oil fuel ash (POFA) in the production of concrete composites was investigated by assessing the impact resistance and strength properties. Six concrete mixes containing WMP fibres varying from 0 to 1.25% with a length of 20 mm were made of ordinary Portland cement (OPC). A different six concrete mixtures with the same fibre content were made, where 20% POFA substituted OPC. The combination of WMP fibres and POFA reduced the slump values of concrete mixes. The inclusion of WMP fibres to OPC and POFA concrete mixes decreased the compressive strength. However, at the curing period of 91 days, the POFA-based mixes obtained higher compressive strength values than those of OPC-based mixtures. The positive interaction among WMP fibres and POFA consequently improved the impact resistance, flexural and splitting tensile strengths, thereby developing the energy absorption capacity and concrete ductility. It is concluded that the utilisation of WMP fibres and POFA in the production of sustainable concrete composites is potential to enhance the impact resistance and strength properties of concrete components that can be used in structural and non-structural applications. |
| format |
Article |
| author |
Mohammadhosseini, Hossein Md. Tahir, Mahmood Mohd. Sam, Abdul Rahman |
| author_facet |
Mohammadhosseini, Hossein Md. Tahir, Mahmood Mohd. Sam, Abdul Rahman |
| author_sort |
Mohammadhosseini, Hossein |
| title |
The feasibility of improving impact resistance and strength properties of sustainable concrete composites by adding waste metalized plastic fibres |
| title_short |
The feasibility of improving impact resistance and strength properties of sustainable concrete composites by adding waste metalized plastic fibres |
| title_full |
The feasibility of improving impact resistance and strength properties of sustainable concrete composites by adding waste metalized plastic fibres |
| title_fullStr |
The feasibility of improving impact resistance and strength properties of sustainable concrete composites by adding waste metalized plastic fibres |
| title_full_unstemmed |
The feasibility of improving impact resistance and strength properties of sustainable concrete composites by adding waste metalized plastic fibres |
| title_sort |
feasibility of improving impact resistance and strength properties of sustainable concrete composites by adding waste metalized plastic fibres |
| publisher |
Elsevier Ltd |
| publishDate |
2018 |
| url |
http://eprints.utm.my/id/eprint/86108/ http://dx.doi.org/10.1016/j.conbuildmat.2018.02.210 |
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1677781131672420352 |
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13.211869 |