Microstructural investigation of heat-treated ultra-high performance concrete for optimum production

Microstructural investigation of heat-treated ultra-high performance concrete for optimum production

10.3390/ma10091106

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Bibliographic Details
Main Authors: Kang, S.-H, Lee, J.-H, Hong, S.-G, Moon, J
Other Authors: CIVIL AND ENVIRONMENTAL ENGINEERING
Format: Article
Published: MDPI AG 2020
Subjects:
Compressive strength
Concretes
Curing
Energy utilization
Environmental impact
Heat treatment
Hydration
Microstructure
Tensile strength
Increased temperature
Mechanical benefits
Mechanical performance
Micro-structural properties
Microstructural investigation
Portlandite
Pozzolanic reaction
Ultra high performance concretes
High performance concrete
Online Access:https://scholarbank.nus.edu.sg/handle/10635/174417
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Institution: National University of Singapore
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spelling sg-nus-scholar.10635-1744172024-04-03T09:11:51Z Microstructural investigation of heat-treated ultra-high performance concrete for optimum production Kang, S.-H Lee, J.-H Hong, S.-G Moon, J CIVIL AND ENVIRONMENTAL ENGINEERING Compressive strength Concretes Curing Energy utilization Environmental impact Heat treatment Hydration Microstructure Tensile strength Increased temperature Mechanical benefits Mechanical performance Micro-structural properties Microstructural investigation Portlandite Pozzolanic reaction Ultra high performance concretes High performance concrete 10.3390/ma10091106 Materials 10 9 1106 2020-09-04T03:38:58Z 2020-09-04T03:38:58Z 2017 Article Kang, S.-H, Lee, J.-H, Hong, S.-G, Moon, J (2017). Microstructural investigation of heat-treated ultra-high performance concrete for optimum production. Materials 10 (9) : 1106. ScholarBank@NUS Repository. https://doi.org/10.3390/ma10091106 1996-1944 https://scholarbank.nus.edu.sg/handle/10635/174417 MDPI AG Unpaywall 20200831
institution National University of Singapore
building NUS Library
continent Asia
country Singapore
Singapore
content_provider NUS Library
collection ScholarBank@NUS
topic Compressive strength
Concretes
Curing
Energy utilization
Environmental impact
Heat treatment
Hydration
Microstructure
Tensile strength
Increased temperature
Mechanical benefits
Mechanical performance
Micro-structural properties
Microstructural investigation
Portlandite
Pozzolanic reaction
Ultra high performance concretes
High performance concrete
spellingShingle Compressive strength
Concretes
Curing
Energy utilization
Environmental impact
Heat treatment
Hydration
Microstructure
Tensile strength
Increased temperature
Mechanical benefits
Mechanical performance
Micro-structural properties
Microstructural investigation
Portlandite
Pozzolanic reaction
Ultra high performance concretes
High performance concrete
Kang, S.-H
Lee, J.-H
Hong, S.-G
Moon, J
Microstructural investigation of heat-treated ultra-high performance concrete for optimum production
description 10.3390/ma10091106
author2 CIVIL AND ENVIRONMENTAL ENGINEERING
author_facet CIVIL AND ENVIRONMENTAL ENGINEERING
Kang, S.-H
Lee, J.-H
Hong, S.-G
Moon, J
format Article
author Kang, S.-H
Lee, J.-H
Hong, S.-G
Moon, J
author_sort Kang, S.-H
title Microstructural investigation of heat-treated ultra-high performance concrete for optimum production
title_short Microstructural investigation of heat-treated ultra-high performance concrete for optimum production
title_full Microstructural investigation of heat-treated ultra-high performance concrete for optimum production
title_fullStr Microstructural investigation of heat-treated ultra-high performance concrete for optimum production
title_full_unstemmed Microstructural investigation of heat-treated ultra-high performance concrete for optimum production
title_sort microstructural investigation of heat-treated ultra-high performance concrete for optimum production
publisher MDPI AG
publishDate 2020
url https://scholarbank.nus.edu.sg/handle/10635/174417
_version_ 1795374336106823680

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