High performance concrete incorporating ceramic waste powder as large partial replacement of Portland cement

Dima M. Kannan; Sherif H. Aboubakr; Amr S. EL-Dieb; Mahmoud M. Reda Taha

doi:10.1016/j.conbuildmat.2017.03.115

High performance concrete incorporating ceramic waste powder as large partial replacement of Portland cement

Dima M. Kannan, Sherif H. Aboubakr, Amr S. EL-Dieb, Mahmoud M. Reda Taha

Department of Civil and Environmental Engineering

Research output: Contribution to journal › Article › peer-review

115 Citations (Scopus)

Abstract

Ceramic waste powder (CWP) is produced during ceramic tile polishing with potential environmental pollution. CWP is silica-rich, alumina-rich and fine particle size material. High performance concrete (HPC) mixtures incorporating 10–40% CWP as replacement of Portland cement by mass were evaluated. Mechanical, durability and microstructural investigations of HPC mixtures were performed. It is shown that concrete incorporating CWP as large replacement of cement has high strength and excellent durability. Microstructure investigations showed that incorporating CWP did not make significant difference in cement hydration compared with cement without CWP. Performance improvement is explained by the low water/cement ratio of the reference mixture enabling CWP to create dense packing particles.

Original language	English
Pages (from-to)	35-41
Number of pages	7
Journal	Construction and Building Materials
Volume	144
DOIs	https://doi.org/10.1016/j.conbuildmat.2017.03.115
Publication status	Published - Jul 30 2017

Keywords

Ceramic waste powder (CWP)
Frattini test
High performance concrete

ASJC Scopus subject areas

Civil and Structural Engineering
Building and Construction
Materials Science(all)

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10.1016/j.conbuildmat.2017.03.115

Cite this

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title = "High performance concrete incorporating ceramic waste powder as large partial replacement of Portland cement",

abstract = "Ceramic waste powder (CWP) is produced during ceramic tile polishing with potential environmental pollution. CWP is silica-rich, alumina-rich and fine particle size material. High performance concrete (HPC) mixtures incorporating 10–40% CWP as replacement of Portland cement by mass were evaluated. Mechanical, durability and microstructural investigations of HPC mixtures were performed. It is shown that concrete incorporating CWP as large replacement of cement has high strength and excellent durability. Microstructure investigations showed that incorporating CWP did not make significant difference in cement hydration compared with cement without CWP. Performance improvement is explained by the low water/cement ratio of the reference mixture enabling CWP to create dense packing particles.",

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AU - Kannan, Dima M.

AU - Aboubakr, Sherif H.

AU - EL-Dieb, Amr S.

AU - Reda Taha, Mahmoud M.

PY - 2017/7/30

Y1 - 2017/7/30

N2 - Ceramic waste powder (CWP) is produced during ceramic tile polishing with potential environmental pollution. CWP is silica-rich, alumina-rich and fine particle size material. High performance concrete (HPC) mixtures incorporating 10–40% CWP as replacement of Portland cement by mass were evaluated. Mechanical, durability and microstructural investigations of HPC mixtures were performed. It is shown that concrete incorporating CWP as large replacement of cement has high strength and excellent durability. Microstructure investigations showed that incorporating CWP did not make significant difference in cement hydration compared with cement without CWP. Performance improvement is explained by the low water/cement ratio of the reference mixture enabling CWP to create dense packing particles.

AB - Ceramic waste powder (CWP) is produced during ceramic tile polishing with potential environmental pollution. CWP is silica-rich, alumina-rich and fine particle size material. High performance concrete (HPC) mixtures incorporating 10–40% CWP as replacement of Portland cement by mass were evaluated. Mechanical, durability and microstructural investigations of HPC mixtures were performed. It is shown that concrete incorporating CWP as large replacement of cement has high strength and excellent durability. Microstructure investigations showed that incorporating CWP did not make significant difference in cement hydration compared with cement without CWP. Performance improvement is explained by the low water/cement ratio of the reference mixture enabling CWP to create dense packing particles.

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High performance concrete incorporating ceramic waste powder as large partial replacement of Portland cement

Abstract

Keywords

ASJC Scopus subject areas

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