Mixed materials from landfill as caisson infill

The report delves into the feasibility of employing mixed materials as alternative infill substances for caissons in land reclamation initiatives. The primary objective is to ascertain the suitability of these materials and predict the durability of caissons through a comprehensive investigation of...

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Main Author: Pyae Phyo Thu
Other Authors: En-Hua Yang
Format: Final Year Project
Language:English
Published: Nanyang Technological University 2023
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Online Access:https://hdl.handle.net/10356/172721
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1727212023-12-22T15:34:29Z Mixed materials from landfill as caisson infill Pyae Phyo Thu En-Hua Yang School of Civil and Environmental Engineering EHYANG@ntu.edu.sg Engineering::Civil engineering::Construction technology The report delves into the feasibility of employing mixed materials as alternative infill substances for caissons in land reclamation initiatives. The primary objective is to ascertain the suitability of these materials and predict the durability of caissons through a comprehensive investigation of chloride ingress and corrosion initiation on embedded steel reinforcements. The methodology entails the Rapid Chloride Migration Test applied to local caisson concrete design mixes. This method assesses the chloride migration coefficient, providing insights into the rate of chloride ingress and the time required to reach critical chloride content on the reinforcement surface, initiating corrosion processes. Key findings indicate that the migration coefficients fall within acceptable limits, affirming the suitability of the concrete design mix for caisson construction. The report underscores the significance of adopting a holistic approach, considering factors like chloride exposure, construction practices, and material characteristics when evaluating concrete durability. Conclusions drawn from this study emphasize the need for a multifaceted perspective in concrete durability assessments. Advanced testing methods, modelling techniques, and predictive tools, including semi-probabilistic models, prove essential in offering more accurate service life predictions with acceptable levels of probability. In terms of recommendations, the report underscores the importance of continued research and collaboration to unlock the full potential of mixed materials in enhancing concrete performance and durability. Efforts should concentrate on refining predictive tools, integrating emerging sustainable technologies, and disseminating knowledge to industry professionals. Through these initiatives, the widespread adoption of innovative and environmentally conscious practices can be fostered, ensuring the enduring resilience of concrete structures in an ever-evolving world. Bachelor of Engineering (Civil) 2023-12-19T04:58:58Z 2023-12-19T04:58:58Z 2023 Final Year Project (FYP) Pyae Phyo Thu (2023). Mixed materials from landfill as caisson infill. Final Year Project (FYP), Nanyang Technological University, Singapore. https://hdl.handle.net/10356/172721 https://hdl.handle.net/10356/172721 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::Construction technology
spellingShingle Engineering::Civil engineering::Construction technology
Pyae Phyo Thu
Mixed materials from landfill as caisson infill
description The report delves into the feasibility of employing mixed materials as alternative infill substances for caissons in land reclamation initiatives. The primary objective is to ascertain the suitability of these materials and predict the durability of caissons through a comprehensive investigation of chloride ingress and corrosion initiation on embedded steel reinforcements. The methodology entails the Rapid Chloride Migration Test applied to local caisson concrete design mixes. This method assesses the chloride migration coefficient, providing insights into the rate of chloride ingress and the time required to reach critical chloride content on the reinforcement surface, initiating corrosion processes. Key findings indicate that the migration coefficients fall within acceptable limits, affirming the suitability of the concrete design mix for caisson construction. The report underscores the significance of adopting a holistic approach, considering factors like chloride exposure, construction practices, and material characteristics when evaluating concrete durability. Conclusions drawn from this study emphasize the need for a multifaceted perspective in concrete durability assessments. Advanced testing methods, modelling techniques, and predictive tools, including semi-probabilistic models, prove essential in offering more accurate service life predictions with acceptable levels of probability. In terms of recommendations, the report underscores the importance of continued research and collaboration to unlock the full potential of mixed materials in enhancing concrete performance and durability. Efforts should concentrate on refining predictive tools, integrating emerging sustainable technologies, and disseminating knowledge to industry professionals. Through these initiatives, the widespread adoption of innovative and environmentally conscious practices can be fostered, ensuring the enduring resilience of concrete structures in an ever-evolving world.
author2 En-Hua Yang
author_facet En-Hua Yang
Pyae Phyo Thu
format Final Year Project
author Pyae Phyo Thu
author_sort Pyae Phyo Thu
title Mixed materials from landfill as caisson infill
title_short Mixed materials from landfill as caisson infill
title_full Mixed materials from landfill as caisson infill
title_fullStr Mixed materials from landfill as caisson infill
title_full_unstemmed Mixed materials from landfill as caisson infill
title_sort mixed materials from landfill as caisson infill
publisher Nanyang Technological University
publishDate 2023
url https://hdl.handle.net/10356/172721
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