Combined Effect of Multi-Walled Carbon Nanotubes, Steel Fibre and Glass Fibre Mesh on Novel Two-Stage Expanded Clay Aggregate Concrete against Impact Loading

Combined Effect of Multi-Walled Carbon Nanotubes, Steel Fibre and Glass Fibre Mesh on Novel Two-Stage Expanded Clay Aggregate Concrete against Impact Loading

The use of expanded clay aggregate (ECA) for developing lightweight concrete results in strength-reduction properties. However, the ECA-based concrete strength properties can be improved by adding steel fibre (SF), glass fibre mesh (GFM) and multi-walled nano-carbon tubes (MWCNT). The combined effec...

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Main Authors: Gunasekaran Murali, Sallal R. Abid, Mugahed Amran, Roman Fediuk, Nikolai Vatin, Maria Karelina
Format: Article
Language:English
Published: MDPI AG 2021-06-01
Series:Crystals
Subjects:
expanded clay aggregate
steel fibres
glass fibre mesh
impact strength
carbon nano tubes
Online Access:https://www.mdpi.com/2073-4352/11/7/720
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spelling doaj-80c925f832bc4f7db7cff0057e3f6c292021-07-23T13:36:24ZengMDPI AGCrystals2073-43522021-06-011172072010.3390/cryst11070720Combined Effect of Multi-Walled Carbon Nanotubes, Steel Fibre and Glass Fibre Mesh on Novel Two-Stage Expanded Clay Aggregate Concrete against Impact LoadingGunasekaran Murali0Sallal R. Abid1Mugahed Amran2Roman Fediuk3Nikolai Vatin4Maria Karelina5School of Civil Engineering, SASTRA Deemed University, Thanjavur 613401, IndiaCivil Engineering Department, Wasit University, Kut 52003, IraqDepartment of Civil Engineering, College of Engineering, Prince Sattam Bin Abdulaziz University, Alkharj 16273, Saudi ArabiaSchool of Engineering, Far Eastern Federal University, 8, Sukhanova Str., 690950 Vladivostok, RussiaInstitute of Civil Engineering, Peter the Great St. Petersburg Polytechnic University, 195251 St. Petersburg, RussiaDepartment of Machinery Parts and Theory of Mechanisms, Moscow Automobile and Road Construction University, 125319 Moscow, RussiaThe use of expanded clay aggregate (ECA) for developing lightweight concrete results in strength-reduction properties. However, the ECA-based concrete strength properties can be improved by adding steel fibre (SF), glass fibre mesh (GFM) and multi-walled nano-carbon tubes (MWCNT). The combined effect of MWCNT, GFM, SF and ECA-based concrete and its strength properties is still unexplored. It is worth drawing a logical conclusion concerning the impact on the strength of concrete by incorporating the materials mentioned above. Two-stage expanded clay aggregate fibrous concrete (TECAFC) is a new concrete type and an emerging research area in material engineering. The casting method of TECAFC includes the two essential phases as follows. First, ECA and fibres are filled into the empty cylindrical mould to develop a natural skeleton. Second, the grout comprising cement, sand and MWCNT, are injected into the developed skeleton to fill voids. In this research, eight mixtures were prepared with 0.1 and 0.2% of MWCNT, 2.5% dosage of SF and three different layers of GFM inserted between the two layers of concrete. These eight mixtures were divided into two series of three mixtures each, in addition to two reference mixtures that include no SF or GFM. The first series of mixtures was comprised of 0.1% of MWCNT and 2.5% of SF and one, two and three layers of GFM insertion. The second series was the same as the first series and the dosage of MWCNT was taken as 0.2%. All cylindrical specimens were tested under drop mass impact as per the suggestions made by the ACI Committee 544. The test results showed that incorporating steel fibres and GFM improved the cracking and failure impact resistance by more than 270 and 1100%, respectively, and increased the impact ductility index by more than 220%, significantly contributing to steel fibres.https://www.mdpi.com/2073-4352/11/7/720expanded clay aggregatesteel fibresglass fibre meshimpact strengthcarbon nano tubes
collection DOAJ
language English
format Article
sources DOAJ
author Gunasekaran Murali
Sallal R. Abid
Mugahed Amran
Roman Fediuk
Nikolai Vatin
Maria Karelina
spellingShingle Gunasekaran Murali
Sallal R. Abid
Mugahed Amran
Roman Fediuk
Nikolai Vatin
Maria Karelina
Combined Effect of Multi-Walled Carbon Nanotubes, Steel Fibre and Glass Fibre Mesh on Novel Two-Stage Expanded Clay Aggregate Concrete against Impact Loading
Crystals
expanded clay aggregate
steel fibres
glass fibre mesh
impact strength
carbon nano tubes
author_facet Gunasekaran Murali
Sallal R. Abid
Mugahed Amran
Roman Fediuk
Nikolai Vatin
Maria Karelina
author_sort Gunasekaran Murali
title Combined Effect of Multi-Walled Carbon Nanotubes, Steel Fibre and Glass Fibre Mesh on Novel Two-Stage Expanded Clay Aggregate Concrete against Impact Loading
title_short Combined Effect of Multi-Walled Carbon Nanotubes, Steel Fibre and Glass Fibre Mesh on Novel Two-Stage Expanded Clay Aggregate Concrete against Impact Loading
title_full Combined Effect of Multi-Walled Carbon Nanotubes, Steel Fibre and Glass Fibre Mesh on Novel Two-Stage Expanded Clay Aggregate Concrete against Impact Loading
title_fullStr Combined Effect of Multi-Walled Carbon Nanotubes, Steel Fibre and Glass Fibre Mesh on Novel Two-Stage Expanded Clay Aggregate Concrete against Impact Loading
title_full_unstemmed Combined Effect of Multi-Walled Carbon Nanotubes, Steel Fibre and Glass Fibre Mesh on Novel Two-Stage Expanded Clay Aggregate Concrete against Impact Loading
title_sort combined effect of multi-walled carbon nanotubes, steel fibre and glass fibre mesh on novel two-stage expanded clay aggregate concrete against impact loading
publisher MDPI AG
series Crystals
issn 2073-4352
publishDate 2021-06-01
description The use of expanded clay aggregate (ECA) for developing lightweight concrete results in strength-reduction properties. However, the ECA-based concrete strength properties can be improved by adding steel fibre (SF), glass fibre mesh (GFM) and multi-walled nano-carbon tubes (MWCNT). The combined effect of MWCNT, GFM, SF and ECA-based concrete and its strength properties is still unexplored. It is worth drawing a logical conclusion concerning the impact on the strength of concrete by incorporating the materials mentioned above. Two-stage expanded clay aggregate fibrous concrete (TECAFC) is a new concrete type and an emerging research area in material engineering. The casting method of TECAFC includes the two essential phases as follows. First, ECA and fibres are filled into the empty cylindrical mould to develop a natural skeleton. Second, the grout comprising cement, sand and MWCNT, are injected into the developed skeleton to fill voids. In this research, eight mixtures were prepared with 0.1 and 0.2% of MWCNT, 2.5% dosage of SF and three different layers of GFM inserted between the two layers of concrete. These eight mixtures were divided into two series of three mixtures each, in addition to two reference mixtures that include no SF or GFM. The first series of mixtures was comprised of 0.1% of MWCNT and 2.5% of SF and one, two and three layers of GFM insertion. The second series was the same as the first series and the dosage of MWCNT was taken as 0.2%. All cylindrical specimens were tested under drop mass impact as per the suggestions made by the ACI Committee 544. The test results showed that incorporating steel fibres and GFM improved the cracking and failure impact resistance by more than 270 and 1100%, respectively, and increased the impact ductility index by more than 220%, significantly contributing to steel fibres.
topic expanded clay aggregate
steel fibres
glass fibre mesh
impact strength
carbon nano tubes
url https://www.mdpi.com/2073-4352/11/7/720
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AT mugahedamran combinedeffectofmultiwalledcarbonnanotubessteelfibreandglassfibremeshonnoveltwostageexpandedclayaggregateconcreteagainstimpactloading
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