Alkali-Activated Copper Slag with Carbon Reinforcement: Effects of Metakaolinite, OPC and Surfactants

Patrick Ninla Lemougna; Guillermo Meza Hernandez; Nicole Dilissen; Felicite Kingne Kingne; Jun Gu; Hubert Rahier

doi:10.3390/app14052081

Alkali-Activated Copper Slag with Carbon Reinforcement: Effects of Metakaolinite, OPC and Surfactants

Patrick Ninla Lemougna, Guillermo Meza Hernandez, Nicole Dilissen, Felicite Kingne Kingne, Jun Gu, Hubert Rahier

Research output: Contribution to journal › Article › peer-review

21 Downloads (Pure)

Abstract

Abstract: Copper slag is an industrial residue with a large unutilized fraction. This study presents the development of alkali-activated composites from a copper slag named Koranel®. The effects of metakaolinite, ordinary Portland cement (OPC) and surfactants were investigated. The reactivity of Koranel with potassium silicate solutions with molar ratio R = SiO2/K2O varying from 1 to 2.75, with 0.25 intervals, was investigated using isothermal calorimetry. The reactivity was relatively low at 20 ◦C; the reaction started after a few hours with a low silica modulus, to several weeks with the highest silica modulus. The substitution of Koranel by OPC (5 wt.%) or by metakaolinite (10–20 wt.%), both led to higher reaction heat and rate; meanwhile, the addition of 2 wt.% polyethylene glycol/2-methyl 2,4 pentanediol delayed the reaction time in the system containing metakaolinite. Raising the curing temperature from 20 ◦C to 80 ◦C shortened the setting time of the low reactive systems, from several days to almost instantaneous, opening perspectives for their application in the production of prepreg composite materials. The use of carbon fabric as reinforcement in the alkali-activated matrix led to composite materials with flexural strength reaching 88 MPa and elastic modulus of about 19 GPa—interesting for engineering applications such as high-strength lightweight panels.

Original language	English
Article number	2081
Pages (from-to)	1-20
Number of pages	20
Journal	Applied Sciences (MDPI)
Volume	14
Issue number	5
DOIs	https://doi.org/10.3390/app14052081
Publication status	Published - 1 Mar 2024

Bibliographical note

Funding Information:
This work was performed in the framework of STIF (ICON, supported by SIM, Flanders, N\u00B0 HBC.2019.0120). The project has received funding from the European Union\u2019s Horizon 2020 research and innovation programme under N\u00B0 963603 Current Direct.

Funding Information:
This work was performed in the framework of STIF (ICON, supported by SIM, Flanders, N\u00B0 HBC.2019.0120). The project has received funding from the European Union\u2019s Horizon 2020 research and innovation programme under N\u00B0 963603 Current Direct. The Authors also acknowledged the support from the Department Mechanics of Materials and Constructions (MeMC) of VUB for assistance in mechanical testing.

Publisher Copyright:
© 2024 by the authors.

Keywords

Copper slag
Alkali-activated materials
laminate composite
Elastic modulus
flexural strength

Access to Document

10.3390/app14052081Licence: CC BY

109020953Final published version, 4.17 MBLicence: CC BY

Cite this

@article{94bce5399e0340c5aa7633cc91b8255e,

title = "Alkali-Activated Copper Slag with Carbon Reinforcement: Effects of Metakaolinite, OPC and Surfactants",

abstract = "Abstract: Copper slag is an industrial residue with a large unutilized fraction. This study presents the development of alkali-activated composites from a copper slag named Koranel{\textregistered}. The effects of metakaolinite, ordinary Portland cement (OPC) and surfactants were investigated. The reactivity of Koranel with potassium silicate solutions with molar ratio R = SiO2/K2O varying from 1 to 2.75, with 0.25 intervals, was investigated using isothermal calorimetry. The reactivity was relatively low at 20 ◦C; the reaction started after a few hours with a low silica modulus, to several weeks with the highest silica modulus. The substitution of Koranel by OPC (5 wt.%) or by metakaolinite (10–20 wt.%), both led to higher reaction heat and rate; meanwhile, the addition of 2 wt.% polyethylene glycol/2-methyl 2,4 pentanediol delayed the reaction time in the system containing metakaolinite. Raising the curing temperature from 20 ◦C to 80 ◦C shortened the setting time of the low reactive systems, from several days to almost instantaneous, opening perspectives for their application in the production of prepreg composite materials. The use of carbon fabric as reinforcement in the alkali-activated matrix led to composite materials with flexural strength reaching 88 MPa and elastic modulus of about 19 GPa—interesting for engineering applications such as high-strength lightweight panels.",

keywords = "Copper slag, Alkali-activated materials, laminate composite, Elastic modulus, flexural strength",

author = "Lemougna, {Patrick Ninla} and {Meza Hernandez}, Guillermo and Nicole Dilissen and {Kingne Kingne}, Felicite and Jun Gu and Hubert Rahier",

note = "Funding Information: This work was performed in the framework of STIF (ICON, supported by SIM, Flanders, N\u00B0 HBC.2019.0120). The project has received funding from the European Union\u2019s Horizon 2020 research and innovation programme under N\u00B0 963603 Current Direct. Funding Information: This work was performed in the framework of STIF (ICON, supported by SIM, Flanders, N\u00B0 HBC.2019.0120). The project has received funding from the European Union\u2019s Horizon 2020 research and innovation programme under N\u00B0 963603 Current Direct. The Authors also acknowledged the support from the Department Mechanics of Materials and Constructions (MeMC) of VUB for assistance in mechanical testing. Publisher Copyright: {\textcopyright} 2024 by the authors.",

year = "2024",

month = mar,

day = "1",

doi = "10.3390/app14052081",

language = "English",

volume = "14",

pages = "1--20",

journal = "Applied Sciences (MDPI)",

issn = "2076-3417",

publisher = "MDPI",

number = "5",

}

TY - JOUR

T1 - Alkali-Activated Copper Slag with Carbon Reinforcement: Effects of Metakaolinite, OPC and Surfactants

AU - Lemougna, Patrick Ninla

AU - Meza Hernandez, Guillermo

AU - Dilissen, Nicole

AU - Kingne Kingne, Felicite

AU - Gu, Jun

AU - Rahier, Hubert

N1 - Funding Information: This work was performed in the framework of STIF (ICON, supported by SIM, Flanders, N\u00B0 HBC.2019.0120). The project has received funding from the European Union\u2019s Horizon 2020 research and innovation programme under N\u00B0 963603 Current Direct. Funding Information: This work was performed in the framework of STIF (ICON, supported by SIM, Flanders, N\u00B0 HBC.2019.0120). The project has received funding from the European Union\u2019s Horizon 2020 research and innovation programme under N\u00B0 963603 Current Direct. The Authors also acknowledged the support from the Department Mechanics of Materials and Constructions (MeMC) of VUB for assistance in mechanical testing. Publisher Copyright: © 2024 by the authors.

PY - 2024/3/1

Y1 - 2024/3/1

N2 - Abstract: Copper slag is an industrial residue with a large unutilized fraction. This study presents the development of alkali-activated composites from a copper slag named Koranel®. The effects of metakaolinite, ordinary Portland cement (OPC) and surfactants were investigated. The reactivity of Koranel with potassium silicate solutions with molar ratio R = SiO2/K2O varying from 1 to 2.75, with 0.25 intervals, was investigated using isothermal calorimetry. The reactivity was relatively low at 20 ◦C; the reaction started after a few hours with a low silica modulus, to several weeks with the highest silica modulus. The substitution of Koranel by OPC (5 wt.%) or by metakaolinite (10–20 wt.%), both led to higher reaction heat and rate; meanwhile, the addition of 2 wt.% polyethylene glycol/2-methyl 2,4 pentanediol delayed the reaction time in the system containing metakaolinite. Raising the curing temperature from 20 ◦C to 80 ◦C shortened the setting time of the low reactive systems, from several days to almost instantaneous, opening perspectives for their application in the production of prepreg composite materials. The use of carbon fabric as reinforcement in the alkali-activated matrix led to composite materials with flexural strength reaching 88 MPa and elastic modulus of about 19 GPa—interesting for engineering applications such as high-strength lightweight panels.

AB - Abstract: Copper slag is an industrial residue with a large unutilized fraction. This study presents the development of alkali-activated composites from a copper slag named Koranel®. The effects of metakaolinite, ordinary Portland cement (OPC) and surfactants were investigated. The reactivity of Koranel with potassium silicate solutions with molar ratio R = SiO2/K2O varying from 1 to 2.75, with 0.25 intervals, was investigated using isothermal calorimetry. The reactivity was relatively low at 20 ◦C; the reaction started after a few hours with a low silica modulus, to several weeks with the highest silica modulus. The substitution of Koranel by OPC (5 wt.%) or by metakaolinite (10–20 wt.%), both led to higher reaction heat and rate; meanwhile, the addition of 2 wt.% polyethylene glycol/2-methyl 2,4 pentanediol delayed the reaction time in the system containing metakaolinite. Raising the curing temperature from 20 ◦C to 80 ◦C shortened the setting time of the low reactive systems, from several days to almost instantaneous, opening perspectives for their application in the production of prepreg composite materials. The use of carbon fabric as reinforcement in the alkali-activated matrix led to composite materials with flexural strength reaching 88 MPa and elastic modulus of about 19 GPa—interesting for engineering applications such as high-strength lightweight panels.

KW - Copper slag

KW - Alkali-activated materials

KW - laminate composite

KW - Elastic modulus

KW - flexural strength

UR - http://www.scopus.com/inward/record.url?scp=85192475626&partnerID=8YFLogxK

U2 - 10.3390/app14052081

DO - 10.3390/app14052081

M3 - Article

SN - 2076-3417

VL - 14

SP - 1

EP - 20

JO - Applied Sciences (MDPI)

JF - Applied Sciences (MDPI)

IS - 5

M1 - 2081

ER -

Alkali-Activated Copper Slag with Carbon Reinforcement: Effects of Metakaolinite, OPC and Surfactants

Abstract

Bibliographical note

Keywords

Access to Document

Other files and links

Fingerprint

Cite this