Rheology of fiber-reinforced concrete (FRC)

Rheology of fiber-reinforced concrete (FRC)

3D concrete printing(3DCP) has been gaining traction in the civil industry due to the benefits it offers. However, due to the brittleness of concrete, steel reinforcement is needed but the incorporation of reinforcement is difficult to incorporate into 3DCP. As such, the number of printable concret...

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Main Author: Koh, Jordalyn Xin Yee
Other Authors: Qian Shunzhi
Format: Final Year Project
Language:English
Published: Nanyang Technological University 2023
Subjects:
Engineering::Civil engineering
Online Access:https://hdl.handle.net/10356/167792
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1677922023-06-09T15:34:26Z Rheology of fiber-reinforced concrete (FRC) Koh, Jordalyn Xin Yee Qian Shunzhi School of Civil and Environmental Engineering SZQian@ntu.edu.sg Engineering::Civil engineering 3D concrete printing(3DCP) has been gaining traction in the civil industry due to the benefits it offers. However, due to the brittleness of concrete, steel reinforcement is needed but the incorporation of reinforcement is difficult to incorporate into 3DCP. As such, the number of printable concrete is limited. A good understanding of the rheology of concrete is required to determine if a material is printable. This FYP study investigated the effect of incorporating fibers to the concrete prior to the conduct of the rheological test. Normally, when researchers carry out rheological tests, they do so using mortars. Fibers will only be added after the rheological tests and before carrying out other tests such as compression tests and tensile tests. In this study, PVA fibers were used and their volumetric content added ranged from 0 to 2%. Before carrying out the experiments with different PVA fiber volume content, experiments were first carried out to determine the concentration of VMA to be added. SP and VMA had to be included as the FRC mixture turned out to be too stiff without the admixtures and it was impossible for the rotating bar of the rheometer to rotate in the mixture. The results obtained from the rheological tests showed that it was possible to conduct rheological tests on FRC up to but not including 1.5% PVA fibers. Besides investigating if it was possible to conduct the tests, rheological properties for the FRC samples with different VMA and PVA fiber content were obtained as well. The FRC samples were also further tested in order to obtain their compression strength and tensile properties. Bachelor of Engineering (Civil) 2023-06-05T01:47:00Z 2023-06-05T01:47:00Z 2023 Final Year Project (FYP) Koh, J. X. Y. (2023). Rheology of fiber-reinforced concrete (FRC). Final Year Project (FYP), Nanyang Technological University, Singapore. https://hdl.handle.net/10356/167792 https://hdl.handle.net/10356/167792 en application/pdf Nanyang Technological University
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Engineering::Civil engineering
spellingShingle Engineering::Civil engineering
Koh, Jordalyn Xin Yee
Rheology of fiber-reinforced concrete (FRC)
description 3D concrete printing(3DCP) has been gaining traction in the civil industry due to the benefits it offers. However, due to the brittleness of concrete, steel reinforcement is needed but the incorporation of reinforcement is difficult to incorporate into 3DCP. As such, the number of printable concrete is limited. A good understanding of the rheology of concrete is required to determine if a material is printable. This FYP study investigated the effect of incorporating fibers to the concrete prior to the conduct of the rheological test. Normally, when researchers carry out rheological tests, they do so using mortars. Fibers will only be added after the rheological tests and before carrying out other tests such as compression tests and tensile tests. In this study, PVA fibers were used and their volumetric content added ranged from 0 to 2%. Before carrying out the experiments with different PVA fiber volume content, experiments were first carried out to determine the concentration of VMA to be added. SP and VMA had to be included as the FRC mixture turned out to be too stiff without the admixtures and it was impossible for the rotating bar of the rheometer to rotate in the mixture. The results obtained from the rheological tests showed that it was possible to conduct rheological tests on FRC up to but not including 1.5% PVA fibers. Besides investigating if it was possible to conduct the tests, rheological properties for the FRC samples with different VMA and PVA fiber content were obtained as well. The FRC samples were also further tested in order to obtain their compression strength and tensile properties.
author2 Qian Shunzhi
author_facet Qian Shunzhi
Koh, Jordalyn Xin Yee
format Final Year Project
author Koh, Jordalyn Xin Yee
author_sort Koh, Jordalyn Xin Yee
title Rheology of fiber-reinforced concrete (FRC)
title_short Rheology of fiber-reinforced concrete (FRC)
title_full Rheology of fiber-reinforced concrete (FRC)
title_fullStr Rheology of fiber-reinforced concrete (FRC)
title_full_unstemmed Rheology of fiber-reinforced concrete (FRC)
title_sort rheology of fiber-reinforced concrete (frc)
publisher Nanyang Technological University
publishDate 2023
url https://hdl.handle.net/10356/167792
_version_ 1772828494548434944

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