Self compacting concrete from uncontrolled burning of rice husk and blended fine aggregate

•RHA and blended fine aggregate were used to develop SCC.•Fresh state & hardened concrete properties were determined.•Satisfied the criteria of the fresh state properties.•Compressive strength and tensile strength decreased with increasing of RHA content. This paper presents an experimental stud...

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Published inMaterials in engineering Vol. 55; pp. 410 - 415
Main Authors Rahman, M.E., Muntohar, A.S., Pakrashi, V., Nagaratnam, B.H., Sujan, D.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.03.2014
Subjects
Fresh state properties
Hardened state properties
Rice husk ash
Self compacting concrete
Sustainability
Uncontrolled burning
Rice husk ash
Fresh state properties
Sustainability
Uncontrolled burning
Self compacting concrete
Hardened state properties
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Abstract •RHA and blended fine aggregate were used to develop SCC.•Fresh state & hardened concrete properties were determined.•Satisfied the criteria of the fresh state properties.•Compressive strength and tensile strength decreased with increasing of RHA content. This paper presents an experimental study on the development of normal strength Self compacting concrete (SCC) from uncontrolled burning of rice husk ash (RHA) as a partial replacement to cement and blended fine aggregate whilst maintaining satisfactory properties of SCC. Experiments on the fresh and hardened state properties have been carried out on RHA based SCC from uncontrolled burning. The dosages of RHA are limited to 0%, 20%, 30% and 40% by mass of the total cementitious material in the concrete. The experiments on fresh state properties investigate the filling ability, the passing ability and the segregation resistance of concrete. The experiments on hardened state properties investigate the compressive and the splitting tensile strengths. The water absorption level of the concrete with changing RHA levels has also been monitored. The experimental studies indicate that RHA based SCC developed from uncontrolled burning has a significant potential for use when normal strength is desired.
AbstractList •RHA and blended fine aggregate were used to develop SCC.•Fresh state & hardened concrete properties were determined.•Satisfied the criteria of the fresh state properties.•Compressive strength and tensile strength decreased with increasing of RHA content. This paper presents an experimental study on the development of normal strength Self compacting concrete (SCC) from uncontrolled burning of rice husk ash (RHA) as a partial replacement to cement and blended fine aggregate whilst maintaining satisfactory properties of SCC. Experiments on the fresh and hardened state properties have been carried out on RHA based SCC from uncontrolled burning. The dosages of RHA are limited to 0%, 20%, 30% and 40% by mass of the total cementitious material in the concrete. The experiments on fresh state properties investigate the filling ability, the passing ability and the segregation resistance of concrete. The experiments on hardened state properties investigate the compressive and the splitting tensile strengths. The water absorption level of the concrete with changing RHA levels has also been monitored. The experimental studies indicate that RHA based SCC developed from uncontrolled burning has a significant potential for use when normal strength is desired.
Author Nagaratnam, B.H.
Rahman, M.E.
Muntohar, A.S.
Sujan, D.
Pakrashi, V.
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  organization: School of Engineering and Science, Curtin University Sarawak, Malaysia
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Keywords Rice husk ash
Fresh state properties
Sustainability
Uncontrolled burning
Self compacting concrete
Hardened state properties
Language English
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Snippet •RHA and blended fine aggregate were used to develop SCC.•Fresh state & hardened concrete properties were determined.•Satisfied the criteria of the fresh state...
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SubjectTerms Fresh state properties
Hardened state properties
Rice husk ash
Self compacting concrete
Sustainability
Uncontrolled burning
Title Self compacting concrete from uncontrolled burning of rice husk and blended fine aggregate
URI https://dx.doi.org/10.1016/j.matdes.2013.10.007
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