Physical properties of rubberized self-consolidating concrete (R-SCC) incorporating nano-silica

Nurul Izzati Rahim; Bashar S. Mohammed; Amin Al-Fakih

doi:10.1063/5.0044267

Physical properties of rubberized self-consolidating concrete (R-SCC) incorporating nano-silica

Nurul Izzati Rahim^*, Bashar S. Mohammed, Amin Al-Fakih

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

5 Scopus citations

Abstract

Due to low water-cement ratio of self-compacting concrete (SCC), the concrete tends to be brittle. The inclusion of crumb rubber as aggregate replacement in SCC mixture has been proven to increase the properties of the SCC. Despite that the addition of the crumb rubber reduced the mechanical properties such as compressive strength, flexural strength etc. Therefore, this study is carried out to evaluate the physical performance of rubberized self-compacting concrete (R-SCC) with inclusion of nano-silica. The slump flow test, L-Box test and V-Funnel test were carried out and indicated that the flowability and viscosity of the R-SCC increase with the inclusion of fly ash and with the addition of nano-silica. The inclusion of nano-silica into the mixture improved the flowability of the concrete as well as the slump flow spread. The addition of 2% of nano-silica into the R-SCC mixture improved the passing ability of the concrete which consider the optimal addition percentage.

Original language	English
Title of host publication	Proceedings of Green Design and Manufacture 2020
Editors	Shayfull Zamree Abd Rahim, Mohd Nasir Mat Saad, Mohd Mustafa Al Bakri Abdullah, Muhammad Faheem Mohd Tahir, Nurul Aida Mohd Mortar
Publisher	American Institute of Physics Inc.
ISBN (Electronic)	9780735440913
DOIs	https://doi.org/10.1063/5.0044267
State	Published - 3 May 2021
Externally published	Yes

Publication series

Name	AIP Conference Proceedings
Volume	2339
ISSN (Print)	0094-243X
ISSN (Electronic)	1551-7616

Bibliographical note

Publisher Copyright:
© 2021 American Institute of Physics Inc.. All rights reserved.

ASJC Scopus subject areas

General Physics and Astronomy

Access to Document

10.1063/5.0044267

Cite this

Rahim, N. I., Mohammed, B. S., & Al-Fakih, A. (2021). Physical properties of rubberized self-consolidating concrete (R-SCC) incorporating nano-silica. In S. Z. A. Rahim, M. N. M. Saad, M. M. A. B. Abdullah, M. F. M. Tahir, & N. A. M. Mortar (Eds.), Proceedings of Green Design and Manufacture 2020 Article 020121 (AIP Conference Proceedings; Vol. 2339). American Institute of Physics Inc.. https://doi.org/10.1063/5.0044267

Rahim, Nurul Izzati ; Mohammed, Bashar S. ; Al-Fakih, Amin. / Physical properties of rubberized self-consolidating concrete (R-SCC) incorporating nano-silica. Proceedings of Green Design and Manufacture 2020. editor / Shayfull Zamree Abd Rahim ; Mohd Nasir Mat Saad ; Mohd Mustafa Al Bakri Abdullah ; Muhammad Faheem Mohd Tahir ; Nurul Aida Mohd Mortar. American Institute of Physics Inc., 2021. (AIP Conference Proceedings).

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title = "Physical properties of rubberized self-consolidating concrete (R-SCC) incorporating nano-silica",

abstract = "Due to low water-cement ratio of self-compacting concrete (SCC), the concrete tends to be brittle. The inclusion of crumb rubber as aggregate replacement in SCC mixture has been proven to increase the properties of the SCC. Despite that the addition of the crumb rubber reduced the mechanical properties such as compressive strength, flexural strength etc. Therefore, this study is carried out to evaluate the physical performance of rubberized self-compacting concrete (R-SCC) with inclusion of nano-silica. The slump flow test, L-Box test and V-Funnel test were carried out and indicated that the flowability and viscosity of the R-SCC increase with the inclusion of fly ash and with the addition of nano-silica. The inclusion of nano-silica into the mixture improved the flowability of the concrete as well as the slump flow spread. The addition of 2\% of nano-silica into the R-SCC mixture improved the passing ability of the concrete which consider the optimal addition percentage.",

author = "Rahim, \{Nurul Izzati\} and Mohammed, \{Bashar S.\} and Amin Al-Fakih",

year = "2021",

month = may,

day = "3",

doi = "10.1063/5.0044267",

language = "English",

series = "AIP Conference Proceedings",

publisher = "American Institute of Physics Inc.",

editor = "Rahim, \{Shayfull Zamree Abd\} and Saad, \{Mohd Nasir Mat\} and Abdullah, \{Mohd Mustafa Al Bakri\} and Tahir, \{Muhammad Faheem Mohd\} and Mortar, \{Nurul Aida Mohd\}",

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Rahim, NI, Mohammed, BS & Al-Fakih, A 2021, Physical properties of rubberized self-consolidating concrete (R-SCC) incorporating nano-silica. in SZA Rahim, MNM Saad, MMAB Abdullah, MFM Tahir & NAM Mortar (eds), Proceedings of Green Design and Manufacture 2020., 020121, AIP Conference Proceedings, vol. 2339, American Institute of Physics Inc. https://doi.org/10.1063/5.0044267

Physical properties of rubberized self-consolidating concrete (R-SCC) incorporating nano-silica. / Rahim, Nurul Izzati; Mohammed, Bashar S.; Al-Fakih, Amin.
Proceedings of Green Design and Manufacture 2020. ed. / Shayfull Zamree Abd Rahim; Mohd Nasir Mat Saad; Mohd Mustafa Al Bakri Abdullah; Muhammad Faheem Mohd Tahir; Nurul Aida Mohd Mortar. American Institute of Physics Inc., 2021. 020121 (AIP Conference Proceedings; Vol. 2339).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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T1 - Physical properties of rubberized self-consolidating concrete (R-SCC) incorporating nano-silica

AU - Rahim, Nurul Izzati

AU - Mohammed, Bashar S.

AU - Al-Fakih, Amin

PY - 2021/5/3

Y1 - 2021/5/3

N2 - Due to low water-cement ratio of self-compacting concrete (SCC), the concrete tends to be brittle. The inclusion of crumb rubber as aggregate replacement in SCC mixture has been proven to increase the properties of the SCC. Despite that the addition of the crumb rubber reduced the mechanical properties such as compressive strength, flexural strength etc. Therefore, this study is carried out to evaluate the physical performance of rubberized self-compacting concrete (R-SCC) with inclusion of nano-silica. The slump flow test, L-Box test and V-Funnel test were carried out and indicated that the flowability and viscosity of the R-SCC increase with the inclusion of fly ash and with the addition of nano-silica. The inclusion of nano-silica into the mixture improved the flowability of the concrete as well as the slump flow spread. The addition of 2% of nano-silica into the R-SCC mixture improved the passing ability of the concrete which consider the optimal addition percentage.

AB - Due to low water-cement ratio of self-compacting concrete (SCC), the concrete tends to be brittle. The inclusion of crumb rubber as aggregate replacement in SCC mixture has been proven to increase the properties of the SCC. Despite that the addition of the crumb rubber reduced the mechanical properties such as compressive strength, flexural strength etc. Therefore, this study is carried out to evaluate the physical performance of rubberized self-compacting concrete (R-SCC) with inclusion of nano-silica. The slump flow test, L-Box test and V-Funnel test were carried out and indicated that the flowability and viscosity of the R-SCC increase with the inclusion of fly ash and with the addition of nano-silica. The inclusion of nano-silica into the mixture improved the flowability of the concrete as well as the slump flow spread. The addition of 2% of nano-silica into the R-SCC mixture improved the passing ability of the concrete which consider the optimal addition percentage.

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M3 - Conference contribution

AN - SCOPUS:85105638856

T3 - AIP Conference Proceedings

BT - Proceedings of Green Design and Manufacture 2020

A2 - Rahim, Shayfull Zamree Abd

A2 - Saad, Mohd Nasir Mat

A2 - Abdullah, Mohd Mustafa Al Bakri

A2 - Tahir, Muhammad Faheem Mohd

A2 - Mortar, Nurul Aida Mohd

PB - American Institute of Physics Inc.

ER -

Physical properties of rubberized self-consolidating concrete (R-SCC) incorporating nano-silica

Abstract

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