Effect of autogeneous self-healing on fatigue performance of ECC

Effect of autogeneous self-healing on fatigue performance of ECC

Self-healing phenomenon of cementitious composites has been noticed and discussed for a long time and several approaches have been proposed over the years. Since the invention of engineered cementitious composites (ECC) in the 1990s, much research have been conducted on self-healing behavior of th...

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Main Author: Aw Yong, Wei Li
Other Authors: Yang En-Hua
Format: Final Year Project
Language:English
Published: 2016
Subjects:
DRNTU::Engineering
Online Access:http://hdl.handle.net/10356/67407
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-674072023-03-03T17:13:22Z Effect of autogeneous self-healing on fatigue performance of ECC Aw Yong, Wei Li Yang En-Hua School of Civil and Environmental Engineering JTC Corporation DRNTU::Engineering Self-healing phenomenon of cementitious composites has been noticed and discussed for a long time and several approaches have been proposed over the years. Since the invention of engineered cementitious composites (ECC) in the 1990s, much research have been conducted on self-healing behavior of this special type of cement-based materials because of its unique properties which maintain tight crack width of about 60μm that satisfied the stingy requirement of autogenous self-healing mechanism (Li and Herbert 2012). In this research, the author focus on the effect of autogenous self-healing on fatigue performance of ECC. While fatigue life of ECC specimens is designed to be the responding variable which reflects the effectiveness of self-healing, pre-damage level of ECC specimens and repeated healing condition are designed to be the manipulated variables of the experiments. Other properties such as crack width, flexural stiffness were also studied to provide a more thorough picture on self-healing behavior. Before the fatigue test, investigation on the most suitable cementitious composites mix design for robust self-healing was conducted. ECC mix design with 75% of cement content replaced by fly ash has demonstrated the best potential to achieve robust self-healing and was selected to be used throughout the fatigue load test. In summary, from the experiments, it is confirmed that fatigue performance of ECC can be improved by engaging autogenous self-healing conditioning. Further analyses and explanations will be discussed in the following chapters. Bachelor of Engineering (Civil) 2016-05-16T07:29:02Z 2016-05-16T07:29:02Z 2016 Final Year Project (FYP) http://hdl.handle.net/10356/67407 en Nanyang Technological University 36 p. application/pdf
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic DRNTU::Engineering
spellingShingle DRNTU::Engineering
Aw Yong, Wei Li
Effect of autogeneous self-healing on fatigue performance of ECC
description Self-healing phenomenon of cementitious composites has been noticed and discussed for a long time and several approaches have been proposed over the years. Since the invention of engineered cementitious composites (ECC) in the 1990s, much research have been conducted on self-healing behavior of this special type of cement-based materials because of its unique properties which maintain tight crack width of about 60μm that satisfied the stingy requirement of autogenous self-healing mechanism (Li and Herbert 2012). In this research, the author focus on the effect of autogenous self-healing on fatigue performance of ECC. While fatigue life of ECC specimens is designed to be the responding variable which reflects the effectiveness of self-healing, pre-damage level of ECC specimens and repeated healing condition are designed to be the manipulated variables of the experiments. Other properties such as crack width, flexural stiffness were also studied to provide a more thorough picture on self-healing behavior. Before the fatigue test, investigation on the most suitable cementitious composites mix design for robust self-healing was conducted. ECC mix design with 75% of cement content replaced by fly ash has demonstrated the best potential to achieve robust self-healing and was selected to be used throughout the fatigue load test. In summary, from the experiments, it is confirmed that fatigue performance of ECC can be improved by engaging autogenous self-healing conditioning. Further analyses and explanations will be discussed in the following chapters.
author2 Yang En-Hua
author_facet Yang En-Hua
Aw Yong, Wei Li
format Final Year Project
author Aw Yong, Wei Li
author_sort Aw Yong, Wei Li
title Effect of autogeneous self-healing on fatigue performance of ECC
title_short Effect of autogeneous self-healing on fatigue performance of ECC
title_full Effect of autogeneous self-healing on fatigue performance of ECC
title_fullStr Effect of autogeneous self-healing on fatigue performance of ECC
title_full_unstemmed Effect of autogeneous self-healing on fatigue performance of ECC
title_sort effect of autogeneous self-healing on fatigue performance of ecc
publishDate 2016
url http://hdl.handle.net/10356/67407
_version_ 1759853886191960064

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