Taguchi optimization of geopolymer concrete produced with rice husk ash and ceramic dust

[31] Behforouz B(2017)Design of geopolymer concrete with GGBFS at ambient curing condition using Taguchi method Constr Build Mater 187 1-249

[32] Amran M(2014)Minimising the global warming potential of clay based geopolymers J Clean Prod 101 1365-31

[33] Debbarma S(2009)Alkali-activated fly ash-based geopolymers with zeolite or bentonite as additives Cem Concr Compos 12 245-246

[34] Ozbakkaloglu T(2018)Waste ceramic powder incorporated alkali activated mortars exposed to elevated temperatures: performance evaluation Constr Build Mater 142 22-393

[35] Arnold MC(2015)Effect of alkali-activator and rice husk ash content on strength development of fly ash and residual rice husk ash-based geopolymers Constr Build Mater 169 240-198

[36] de Vargas AS(2020)Influences of parameters on slump flow and compressive strength properties of aluminosilicate based flowable geopolymer concrete using Taguchi method SILICON 40 388-195

[37] Bianchini L(2017)Substitution of sodium silicate with rice husk ash-NaOH solution in metakaolin based geopolymer cement concerning reduction in global warming J Clean Prod 21 191-10

[38] Assi LN(2018)Compressive strength of rice husk ash based geopolymer: The effect of alkaline activator Constr Build Mater 1 189-28

[39] Eddie Deaver E(2014)Split tensile strength of OPC-based geopolymers: application of doE method in evaluating the effect of production parameters and their optimum condition Ceram Int 5 1-55

[40] Ziehl P(2021)Materials today : proceedings mechanical characterization and assessment of composite geopolymer concrete Mater Today Proc 23 25-449

[31] Behforouz B(2017)Design of geopolymer concrete with GGBFS at ambient curing condition using Taguchi method Constr Build Mater 187 1-249

[32] Amran M(2014)Minimising the global warming potential of clay based geopolymers J Clean Prod 101 1365-31

[33] Debbarma S(2009)Alkali-activated fly ash-based geopolymers with zeolite or bentonite as additives Cem Concr Compos 12 245-246

[34] Ozbakkaloglu T(2018)Waste ceramic powder incorporated alkali activated mortars exposed to elevated temperatures: performance evaluation Constr Build Mater 142 22-393

[35] Arnold MC(2015)Effect of alkali-activator and rice husk ash content on strength development of fly ash and residual rice husk ash-based geopolymers Constr Build Mater 169 240-198

[36] de Vargas AS(2020)Influences of parameters on slump flow and compressive strength properties of aluminosilicate based flowable geopolymer concrete using Taguchi method SILICON 40 388-195

[37] Bianchini L(2017)Substitution of sodium silicate with rice husk ash-NaOH solution in metakaolin based geopolymer cement concerning reduction in global warming J Clean Prod 21 191-10

[38] Assi LN(2018)Compressive strength of rice husk ash based geopolymer: The effect of alkaline activator Constr Build Mater 1 189-28

[39] Eddie Deaver E(2014)Split tensile strength of OPC-based geopolymers: application of doE method in evaluating the effect of production parameters and their optimum condition Ceram Int 5 1-55

[40] Ziehl P(2021)Materials today : proceedings mechanical characterization and assessment of composite geopolymer concrete Mater Today Proc 23 25-449