Ceramic waste as an efficient material for enhancing the fire resistance and mechanical properties of hardened Portland cement pastes

Ceramic waste as an efficient material for enhancing the fire resistance and mechanical properties of hardened Portland cement pastes

•Ceramic waste (CW) can be used as an efficient material for replacing ordinary Portland cement (OPC).•Addition of low % of CNTs enhances the compressive strength of OPC-CW pastes.•Composites prepared by partial replacing of OPC with 5 or 10% CW showed a good thermal resistance behavior.•The composi...

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Veröffentlicht in:Construction & building materials 2017-11, Vol.154, p.1062-1078
Hauptverfasser: El-Gamal, S.M.A., El-Hosiny, F.I., Amin, M.S., Sayed, D.G.
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Sprache:eng
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Analysis
Carbon nanotubes
Ceramic waste
Ceramics
Compressive strength
Mechanical properties
Portland cement
Pozzolanic reaction
Thermal resistance
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container_end_page 1078
container_issue
container_start_page 1062
container_title Construction & building materials
container_volume 154
creator El-Gamal, S.M.A.
El-Hosiny, F.I.
Amin, M.S.
Sayed, D.G.
description •Ceramic waste (CW) can be used as an efficient material for replacing ordinary Portland cement (OPC).•Addition of low % of CNTs enhances the compressive strength of OPC-CW pastes.•Composites prepared by partial replacing of OPC with 5 or 10% CW showed a good thermal resistance behavior.•The composite made by partial replacing OPC with 10% CW shows the highest residual compressive strength values.•Addition of 0.1% CNTs to neat OPC and to OPC replaced by 5, 10 and 20% CW causes a notable improvement in the fire resistance. Utilization of industrial byproducts like ceramic waste (CW) for enhancing the microstructure and mechanical properties as well as the fire resistance of hardened ordinary Portland cement (OPC) pastes is the main goal of this research. Different cement blends were prepared by partial replacement of OPC with 5, 10 and 20CW (mass%). Besides, the effect of addition of 0.05 and 0.1 (mass%) of carbon nano-tubes (CNTs) on the mechanical properties and thermal resistance of these composites was investigated. The compressive strength values of different composites were determined after 1, 3, 7, 28 and 90days of hydration. The thermal resistance test of different hardened composites was evaluated. For thermal resistance test, the specimens hydrated for 28days under tap water were fired at 300, 600 and 800°C for 3h. After that, cooling of the fired specimens was done via gradual and rapid cooling methods. The compressive strength test was performed for all fired specimens at each firing temperature. The compressive strength results revealed that, from the economic point of view the optimum replacement of OPC with ceramic waste is 10%, while the optimum addition of CNTs is 0.05 by mass% of the composite. Phase composition and microstructure of some selected samples were studied using XRD, TG/DTG and SEM analyses, the results indicated that, the main hydration products formed are nearly amorphous calcium silicate hydrates, calcium sulphoaluminate hydrate and calcium hydroxide.
doi_str_mv 10.1016/j.conbuildmat.2017.08.040
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Utilization of industrial byproducts like ceramic waste (CW) for enhancing the microstructure and mechanical properties as well as the fire resistance of hardened ordinary Portland cement (OPC) pastes is the main goal of this research. Different cement blends were prepared by partial replacement of OPC with 5, 10 and 20CW (mass%). Besides, the effect of addition of 0.05 and 0.1 (mass%) of carbon nano-tubes (CNTs) on the mechanical properties and thermal resistance of these composites was investigated. The compressive strength values of different composites were determined after 1, 3, 7, 28 and 90days of hydration. The thermal resistance test of different hardened composites was evaluated. For thermal resistance test, the specimens hydrated for 28days under tap water were fired at 300, 600 and 800°C for 3h. After that, cooling of the fired specimens was done via gradual and rapid cooling methods. 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Utilization of industrial byproducts like ceramic waste (CW) for enhancing the microstructure and mechanical properties as well as the fire resistance of hardened ordinary Portland cement (OPC) pastes is the main goal of this research. Different cement blends were prepared by partial replacement of OPC with 5, 10 and 20CW (mass%). Besides, the effect of addition of 0.05 and 0.1 (mass%) of carbon nano-tubes (CNTs) on the mechanical properties and thermal resistance of these composites was investigated. The compressive strength values of different composites were determined after 1, 3, 7, 28 and 90days of hydration. The thermal resistance test of different hardened composites was evaluated. For thermal resistance test, the specimens hydrated for 28days under tap water were fired at 300, 600 and 800°C for 3h. After that, cooling of the fired specimens was done via gradual and rapid cooling methods. The compressive strength test was performed for all fired specimens at each firing temperature. The compressive strength results revealed that, from the economic point of view the optimum replacement of OPC with ceramic waste is 10%, while the optimum addition of CNTs is 0.05 by mass% of the composite. 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Utilization of industrial byproducts like ceramic waste (CW) for enhancing the microstructure and mechanical properties as well as the fire resistance of hardened ordinary Portland cement (OPC) pastes is the main goal of this research. Different cement blends were prepared by partial replacement of OPC with 5, 10 and 20CW (mass%). Besides, the effect of addition of 0.05 and 0.1 (mass%) of carbon nano-tubes (CNTs) on the mechanical properties and thermal resistance of these composites was investigated. The compressive strength values of different composites were determined after 1, 3, 7, 28 and 90days of hydration. The thermal resistance test of different hardened composites was evaluated. For thermal resistance test, the specimens hydrated for 28days under tap water were fired at 300, 600 and 800°C for 3h. After that, cooling of the fired specimens was done via gradual and rapid cooling methods. The compressive strength test was performed for all fired specimens at each firing temperature. The compressive strength results revealed that, from the economic point of view the optimum replacement of OPC with ceramic waste is 10%, while the optimum addition of CNTs is 0.05 by mass% of the composite. Phase composition and microstructure of some selected samples were studied using XRD, TG/DTG and SEM analyses, the results indicated that, the main hydration products formed are nearly amorphous calcium silicate hydrates, calcium sulphoaluminate hydrate and calcium hydroxide.</abstract><pub>Elsevier Ltd</pub><doi>10.1016/j.conbuildmat.2017.08.040</doi><tpages>17</tpages></addata></record>
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subjects Analysis
Carbon nanotubes
Ceramic waste
Ceramics
Compressive strength
Mechanical properties
Portland cement
Pozzolanic reaction
Thermal resistance
title Ceramic waste as an efficient material for enhancing the fire resistance and mechanical properties of hardened Portland cement pastes
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