Mechanical Properties of Self Compacting Recycled Aggregate Concrete

Sharobim, Kamal; Hassan, Hassan Mohamed; Ragheb, Shady

doi:10.21608/pserj.2017.33295

Mechanical Properties of Self Compacting Recycled Aggregate Concrete

Document Type : Original Article

Authors

¹ Department of Civil Engineering,Faculty of Engineering, Suez Canal University

² Department of Civil Engineering, Faculty of Engineering, Port Said University

³ Department of Civil Engineering,Faculty of Engineering, Port Said University

10.21608/pserj.2017.33295

Abstract

Concrete wastes are generally delivered to the landfill sites for disposal. Due to increasing charges of landfill and scarcity of Natural Coarse Aggregate (NCA), recycled concrete aggregate (RCA) derived from concrete wastes is growing interest in construction industry. In the present study, RCA was used as partial and full replacements of NCA to produce durable Self-Compacting Concrete (SCC). Different SCC mixes were produced with RCA substituting 0%, 25%, 50%, 75%, and 100% NCA by weight, 20% MP and 3% admixture. The water to powder (W/P) ratio are variable after adding water absorption to concrete mixes. The effects of RCA on the key fresh properties such as filling ability, passing ability, and segregation resistance of SCC were investigated and the effects of RCA on hardened concrete such as cube and splitting strength , abrasion resistance , Cantabro test and RCPT test to evaluate durability. The test results revealed that the filling ability and passing ability of SCC were improved for all mixes. All mixes of SCC also possessed adequate segregation resistance. In addition, strong correlations were observed for passing ability, and segregation resistance. The test result of hardened concrete revealed that mixes up to 50%RCA gives normal strength and accepted durability. From the overall test results it could be concluded that RCA can be used to produce SCC substituting up to 50% NCA without affecting the key properties of fresh concrete, give normal strength and accepted durability.

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