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Transforming Conventional Construction Binders and Grouts into High-Performance Nanocarbon Binders and Grouts for Today�s Constructions

The transformation of conventional binder and grout into high-performance nanocarbon binder and grout was evaluated in this investigation. The high-performance nanocarbon grout consisted of grey cement, white cement, lime, gypsum, sand, water, and graphite nanoplatelet (GNP), while conventional mort...

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Main Authors: Katman H.Y.B., Khai W.J., K?rg?z M.S., Nehdi M.L., Benjeddou O., Thomas B.S., Papatzani S., Rambhad K., Kumbhalkar M.A., Karimipour A.
Other Authors: 55812804800
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Published: MDPI 2023
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spelling my.uniten.dspace-268272023-05-29T17:37:00Z Transforming Conventional Construction Binders and Grouts into High-Performance Nanocarbon Binders and Grouts for Today�s Constructions Katman H.Y.B. Khai W.J. K?rg?z M.S. Nehdi M.L. Benjeddou O. Thomas B.S. Papatzani S. Rambhad K. Kumbhalkar M.A. Karimipour A. 55812804800 57211320170 54897959800 7004176002 15839228500 55838284800 56410813300 57094012900 55180124200 57214475450 The transformation of conventional binder and grout into high-performance nanocarbon binder and grout was evaluated in this investigation. The high-performance nanocarbon grout consisted of grey cement, white cement, lime, gypsum, sand, water, and graphite nanoplatelet (GNP), while conventional mortar is prepared with water, binder, and fine aggregate. The investigated properties included unconfined compressive strength (UCS), bending strength, ultrasound pulse analysis (UPA), and Schmidt surface hardness. The results indicated that the inclusion of nanocarbon led to an increase in the initial and long-term strengths by 14% and 23%, respectively. The same trend was observed in the nanocarbon binder mortars with white cement, lime, and gypsum in terms of the UCS, bending strength, UPA, and Schmidt surface hardness. The incorporation of nanocarbon into ordinary cement produced a high-performance nanocarbon binder mortar, which increased the strength to 42.5 N, in comparison to the 32.5 N of the ordinary cement, at 28 days. � 2022 by the authors. Final 2023-05-29T09:37:00Z 2023-05-29T09:37:00Z 2022 Article 10.3390/buildings12071041 2-s2.0-85137320087 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85137320087&doi=10.3390%2fbuildings12071041&partnerID=40&md5=494be6ead2115eb83b3887bd0939b17c https://irepository.uniten.edu.my/handle/123456789/26827 12 7 1041 All Open Access, Gold MDPI Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
description The transformation of conventional binder and grout into high-performance nanocarbon binder and grout was evaluated in this investigation. The high-performance nanocarbon grout consisted of grey cement, white cement, lime, gypsum, sand, water, and graphite nanoplatelet (GNP), while conventional mortar is prepared with water, binder, and fine aggregate. The investigated properties included unconfined compressive strength (UCS), bending strength, ultrasound pulse analysis (UPA), and Schmidt surface hardness. The results indicated that the inclusion of nanocarbon led to an increase in the initial and long-term strengths by 14% and 23%, respectively. The same trend was observed in the nanocarbon binder mortars with white cement, lime, and gypsum in terms of the UCS, bending strength, UPA, and Schmidt surface hardness. The incorporation of nanocarbon into ordinary cement produced a high-performance nanocarbon binder mortar, which increased the strength to 42.5 N, in comparison to the 32.5 N of the ordinary cement, at 28 days. � 2022 by the authors.
author2 55812804800
author_facet 55812804800
Katman H.Y.B.
Khai W.J.
K?rg?z M.S.
Nehdi M.L.
Benjeddou O.
Thomas B.S.
Papatzani S.
Rambhad K.
Kumbhalkar M.A.
Karimipour A.
format Article
author Katman H.Y.B.
Khai W.J.
K?rg?z M.S.
Nehdi M.L.
Benjeddou O.
Thomas B.S.
Papatzani S.
Rambhad K.
Kumbhalkar M.A.
Karimipour A.
spellingShingle Katman H.Y.B.
Khai W.J.
K?rg?z M.S.
Nehdi M.L.
Benjeddou O.
Thomas B.S.
Papatzani S.
Rambhad K.
Kumbhalkar M.A.
Karimipour A.
Transforming Conventional Construction Binders and Grouts into High-Performance Nanocarbon Binders and Grouts for Today�s Constructions
author_sort Katman H.Y.B.
title Transforming Conventional Construction Binders and Grouts into High-Performance Nanocarbon Binders and Grouts for Today�s Constructions
title_short Transforming Conventional Construction Binders and Grouts into High-Performance Nanocarbon Binders and Grouts for Today�s Constructions
title_full Transforming Conventional Construction Binders and Grouts into High-Performance Nanocarbon Binders and Grouts for Today�s Constructions
title_fullStr Transforming Conventional Construction Binders and Grouts into High-Performance Nanocarbon Binders and Grouts for Today�s Constructions
title_full_unstemmed Transforming Conventional Construction Binders and Grouts into High-Performance Nanocarbon Binders and Grouts for Today�s Constructions
title_sort transforming conventional construction binders and grouts into high-performance nanocarbon binders and grouts for today�s constructions
publisher MDPI
publishDate 2023
_version_ 1806423538390794240
score 13.223943

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