Silico-manganese slag and its utilization into alkali-activated materials: A critical review

•Alkaline activation as a promising waste management alternative.•Importance and potential of alkali-activated SiMnS materials.•SiMnS characteristics and usage as an alkali-activated precursor.•AAM based on SiMnS: advantageous properties for various applications.•SiMnS-based AAM: potential for heavy...

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Published inConstruction & building materials Vol. 399; p. 132589
Main Authors Cota, Tiany Guedes, Cheloni, Letícia Maria de Melo Silva, Guedes, Jhonny José Magalhães, Reis, Érica Linhares
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 05.10.2023
Subjects
Bibliometric analysis
Environmental sustainability
Geopolymer
Scientometry
SiMn slag
Waste
Scientometry
SiMn slag
Geopolymer
Environmental sustainability
Bibliometric analysis
Waste
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Abstract •Alkaline activation as a promising waste management alternative.•Importance and potential of alkali-activated SiMnS materials.•SiMnS characteristics and usage as an alkali-activated precursor.•AAM based on SiMnS: advantageous properties for various applications.•SiMnS-based AAM: potential for heavy metal immobilization and sustainability. This review assesses the potential applications of alkali-activated silico-manganese slag (SiMnS). It covers four main sections: (i) the characteristics of SiMnS, (ii) its use as cementitious materials, (iii) its use as an alkali-activated precursor, and (iv) environmental perspectives. SiMnS shows promise as an alkali-activated material with diverse applications in civil construction. Future prospects include their use in heavy metal immobilization, understanding rheological behavior for effective admixture development, and utilization of one-part mix systems with alternative activators. Overall, the use of SiMnS as a precursor for alkali activation contributes to waste reduction and provides many environmental and economic benefits.
AbstractList •Alkaline activation as a promising waste management alternative.•Importance and potential of alkali-activated SiMnS materials.•SiMnS characteristics and usage as an alkali-activated precursor.•AAM based on SiMnS: advantageous properties for various applications.•SiMnS-based AAM: potential for heavy metal immobilization and sustainability. This review assesses the potential applications of alkali-activated silico-manganese slag (SiMnS). It covers four main sections: (i) the characteristics of SiMnS, (ii) its use as cementitious materials, (iii) its use as an alkali-activated precursor, and (iv) environmental perspectives. SiMnS shows promise as an alkali-activated material with diverse applications in civil construction. Future prospects include their use in heavy metal immobilization, understanding rheological behavior for effective admixture development, and utilization of one-part mix systems with alternative activators. Overall, the use of SiMnS as a precursor for alkali activation contributes to waste reduction and provides many environmental and economic benefits.
ArticleNumber 132589
Author Cota, Tiany Guedes
Reis, Érica Linhares
Cheloni, Letícia Maria de Melo Silva
Guedes, Jhonny José Magalhães
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  givenname: Letícia Maria de Melo Silva
  surname: Cheloni
  fullname: Cheloni, Letícia Maria de Melo Silva
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  givenname: Jhonny José Magalhães
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  givenname: Érica Linhares
  surname: Reis
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  email: erica@ufop.edu.br
  organization: Department of Mining Engineering, School of Mines at the Federal University of Ouro Preto-Ouro Preto, Brazil
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Keywords Scientometry
SiMn slag
Geopolymer
Environmental sustainability
Bibliometric analysis
Waste
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Snippet •Alkaline activation as a promising waste management alternative.•Importance and potential of alkali-activated SiMnS materials.•SiMnS characteristics and usage...
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SubjectTerms Bibliometric analysis
Environmental sustainability
Geopolymer
Scientometry
SiMn slag
Waste
Title Silico-manganese slag and its utilization into alkali-activated materials: A critical review
URI https://dx.doi.org/10.1016/j.conbuildmat.2023.132589
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