Carbon Letters 2023 KCI Impact Factor : 1.35 KCI-WoS Impact Factor : 6.04
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pISSN : 1976-4251 / eISSN : 2233-4998
- https://journal.kci.go.kr/carbon
KJCKorea
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Mechanical and microstructural properties of ultrafine slag cement mortar reinforced with graphene oxide nanosheets
- Carbon Letters
- Abbr : Carbon Lett.
- 2023, 33(6), pp.1649-1660
- DOI : 10.1007/s42823-023-00571-7
- Publisher : Korean Carbon Society
- Research Area : Natural Science > Natural Science General > Other Natural Sciences General
- Received : February 13, 2023
- Accepted : July 2, 2023
- Published : October 1, 2023
Yeswanth Sai T. 1, Jagadeesh P. 1
1School of Civil Engineering, Vellore Institute of Technology, Vellore, Tamil Nadu, 632014, India
Accredited
ABSTRACT
Graphene oxide (GO) and ultrafine slag (UFS) have been applied to reinforce cement mortar cubes (CMC) in this research. The consequences of GO and UFS on the mechanical attributes of the CMC were explored through experimental investigations. Established on the results, at the 28 days of hydration, the CMC compressive and flexural strength with 0.03% of GO and 10% UFS were 89.8 N/mm2 and 9.1 N/mm2, respectively. Furthermore, the structural changes of CMC with GO and UFS were qualitatively analysed with instrumental techniques such as scanning electron microscope (SEM), X-ray fluorescence (XRF), thermogravimetric analysis (TGA), Fourier transform infrared spectroscopy (FT-IR), FT Raman spectroscopy, atomic force microscopy (AFM), and 27Al, 29Si-Nuclear magnetic resonance spectroscopy (NMR). SEM results reported that GO and UFS formed an aggregated nanostructure that improved the microstructural properties of the CMC. TGA analysis revealed the quantum of calcium hydrate and bound water accomplished by supplementing GO bound to the UFS aggregates. FT-IR analysis of the CMC samples confirmed the ‘O-’comprising functional groups of GO which expedited the formation of complexes between calcium carbonate (CaCO3) and UFS. 0.03% GO was the optimum dosage that enhanced the compressive and flexural attributes when combined with 10% UFS in CMC.
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[journal]
Ul Haq I
/ 2022
/ Mechanical and durability performance of concrete mixtures incorporating bentonite, silica fume, and polypropylene fibers
/ Constr Build Mater
345
: 128223~
[journal]
Srinath BLNS
/ 2021
/ A prospective review of alccofine as supplementary cementitious material
/ Mater Today Proc
47
: 3953~3959
[journal]
Aldahdooh MAA
/ 2013
/ Development of green ultra-high performance fiber reinforced concrete containing ultrafine palm oil fuel ash
/ Constr Build Mater
48
: 379~389
[journal]
Yu R
/ 2014
/ A study of multiple effects of nano-silica and hybrid fibres on the properties of ultra-high performance fibre reinforced concrete(UHPFRC)incorporating waste bottom ash(WBA)
/ Constr Build Mater
60
: 98~110
[journal]
Huang W
/ 2017
/ Effect of replacement of silica fume with calcined clay on the hydration and microstructural development of eco-UHPFRC
/ Mater Des
121
: 36~46
[journal]
Van Tuan N
/ 2011
/ The study of using rice husk ash to produce ultra high performance concrete
/ Constr Build Mater
25
: 2030~2035
[journal]
Tafraoui A
/ 2009
/ Metakaolin in the formulation of UHPC
/ Constr Build Mater
23
: 669~674
[journal]
Wang H-Y
/ 2021
/ Evaluation of the engineering properties and durability of mortar produced using ground granulated blast-furnace slag and stainless steel reduced slag
/ Constr Build Mater
280
: 122498~
[journal]
Reddy GGK
/ 2020
/ Influence of alccofine incorporation on the mechanical behavior of ultra-high performance concrete(UHPC)
/ Mater Today Proc
33
: 789~797
[journal]
Gupta S
/ 2013
/ A review on alccofine : a supplementary cementitous material
/ Int J Mod Trends Eng Res
3(2)
: 148~153
[journal]
Soni D
/ 2013
/ Experimental study on high-performance concrete, with mixing of alccofine and flyash
/ Indian J Res
3
: 84~86
[journal]
Suthar S
/ 2013
/ Study on effect of alccofine & fly ash addition on the mechanical properties of high performance concrete
/ Int J Sci Res Dev
1(3)
: 464~467
[journal]
Hamraj M
/ 2014
/ Experimental study on binary blended high strength steel fibre-reinforced concrete using alccofine as mineral admixture
/ Int J Sci Eng Technol
2
: 56~62
[journal]
Rajesh Kumar S
/ 2015
/ An experimental study on the mechanical properties of alccofine based high grade concrete
/ Int J Multidiscip Res Dev
2
: 218~224
[journal]
Abhilash
/ 2022
/
An overview on chemical processes for synthesis of graphene from waste carbon resources
/ Carbon Letters
/ 한국탄소학회
32(3)
: 653~669
[journal]
Toyoda Masahiro
/ 2023
/
Exfoliated graphite: room temperature exfoliation and their applications
/ Carbon Letters
/ 한국탄소학회
33(2)
: 335~362
[journal]
Kumar Amit
/ 2021
/
A review on the mechanical properties of polymer composites reinforced by carbon nanotubes and graphene
/ Carbon Letters
/ 한국탄소학회
31(2)
: 149~165
[journal]
Sayam Abdullah
/ 2022
/
A review on carbon fiber-reinforced hierarchical composites: mechanical performance, manufacturing process, structural applications and allied challenges
/ Carbon Letters
/ 한국탄소학회
32(5)
: 1173~1205
[journal]
Chintalapudi K
/ 2020
/ An intense review on the performance of Graphene Oxide and reduced Graphene Oxide in an admixed cement system
/ Constr Build Mater
259
: 120598~
[journal]
Chintalapudi K
/ 2020
/ The effects of graphene oxide addition on hydration process, crystal shapes, and microstructural transformation of ordinary portland cement
/ J Build Eng
32
: 101551~
[journal]
Prabavathy S
/ 2020
/ Enhancement in behavioral properties of cement mortar cubes admixed with reduced graphene oxide
/ J Build Eng
28
: 101082~
[journal]
Wang Y
/ 2018
/ Transport and photoelectric properties of 2D silicene/MX2(M = Mo, W; X = S, Se)heterostructures
/ ACS Omega
3
: 13251~13262
[journal]
Stankovich S
/ 2006
/ Graphene-based composite materials
/ Nature
442
: 282~286
[journal]
Li G
/ 2018
/ Microstructure and mechanical performance of graphene reinforced cementitious composites
/ Compos Part A Appl Sci Manuf
114
: 188~195
[journal]
e Silva RA
/ 2017
/ Enhanced properties of cement mortars with multilayer graphene nanoparticles
/ Constr Build Mater
149
: 378~385
[journal]
Wang Q
/ 2015
/ Influence of graphene oxide additions on the microstructure and mechanical strength of cement
/ New Carbon Mater
30
: 349~356
[journal]
Tatineni YS
/ 2022
/ Enhanced strength, durability, and microstructural attributes of graphene oxide-modified ultrafine slag cement mortar
/ Buildings
[journal]
Ys T
/ 2022
/ Effect of graphene oxide on the microstructure and hydration characteristics of ultrafine slag cement composites
/ Fuller Nanotub Carbon Nanostruct
[journal]
Yang H
/ 2017
/ Experimental study of the effects of graphene oxide on microstructure and properties of cement paste composite
/ Compos Part A Appl Sci Manuf
102
: 263~272
[journal]
Feng Y
/ 2019
/ Hydration and strength development in blended cement with ultrafine granulated copper slag
/ PLoS ONE
14(4)
: e0215677~
[journal]
Li H-W
/ 2022
/ Mechanical properties and hydration mechanism of high-volume ultra-fine iron ore tailings cementitious materials
/ Constr Build Mater
353
: 129100~
[journal]
Pardal X
/ 2012
/ 27Al and 29Si solid-state NMR characterization of calcium-aluminosilicate-hydrate
/ Inorg Chem
51
: 1827~1836
[web]
/ 2016
/ C109/109M-16a A Standard test method for compressive strength of hydraulic cement mortars (Using 2-in. or cube specimens) Annu B ASTM Stand 04:1–10
/ https://doi.org/10.1520/C0109
[journal]
Devi SC
/ 2020
/ Compressive strength and durability behavior of graphene oxide reinforced concrete composites containing recycled concrete aggregate
/ J Build Eng
32
: 101800~
[journal]
Santamaría A
/ 2020
/ The design of self-compacting structural mortar containing steelmaking slags as aggregate
/ Cem Concr Compos
111
: 103627~
[journal]
Arora S
/ 2022
/ Strength, durability, and microstructure of self-compacting geopolymer concrete produced with copper slag aggregates
/ Environ Sci Pollut Res
[journal]
Diamond S
/ 2004
/ The microstructure of cement paste and concrete––a visual primer
/ Cem Concr Compos
26
: 919~933
[journal]
Bangaru SS
/ 2022
/ Scanning electron microscopy(SEM)image segmentation for microstructure analysis of concrete using U-net convolutional neural network
/ Autom Constr
144
: 104602~
[journal]
Khelifi S
/ 2017
/ X-ray fluorescence analysis of portland cement and clinker for major and trace elements : accuracy and precision
/ J Aust Ceram Soc
[book]
Brebbia CA
/ 2013
/ Materials characterisation VI: computational methods and experiments
/ WIT Press
[journal]
Zheng D
/ 2021
/ Influence and mechanisms of active silica in solid waste on hydration of tricalcium aluminate in the resulting composite cement
/ Mater Today Commun
27
: 102262~
[journal]
Liu G
/ 2021
/ Valorization of converter steel slag into eco-friendly ultra-high performance concrete by ambient CO2 pre-treatment
/ Constr Build Mater
280
: 122580~
[journal]
Mehta J
/ 2017
/ How reliable are Raman spectroscopy measurements of graphene oxide?
/ J Phys Chem C
[journal]
López Díaz D
/ 2020
/ Towards understanding the Raman spectrum of graphene oxide : the effect of the chemical composition
/ Coatings
10
: 524~
[journal]
Lee A
/ 2021
/ Raman study of D* band in graphene oxide and its correlation with reduction
/ Appl Surf Sci
536
: 147990~
[journal]
Bu T
/ 2023
/ Thickness measurements of graphene oxide flakes using atomic force microscopy : results of an international interlaboratory comparison
/ Nanotechnology
34
: 225702~
[journal]
Chintalapudi K
/ 2019
/ Strength properties of graphene oxide cement composites
/ Mater Today Proc
45
: 3971~3975
[journal]
Zhang X
/ 2022
/ Early-age hydration and shrinkage of cement paste with coir fibers as studied by nuclear magnetic resonance
/ Constr Build Mater
336
: 127460~
[journal]
Zhao K
/ 2023
/ Pore fractal characteristics of fiber-reinforced backfill based on nuclear magnetic resonance
/ Powder Technol
426
: 118678~
[journal]
Peyvandi A
/ 2015
/ Monitoring of sulfate attack in concrete by Al27 and Si29 MAS NMR spectroscopy
/ J Mater Civ Eng
[journal]
Schneider J
/ 2001
/ 29Si and 27Al high-resolution NMR characterization of calcium silicate hydrate phases in activated blast-furnace slag pastes
/ Cem Concr Res
31
: 993~1001