TY - GEN
T1 - Optimization of CF-GP Blended Electrically Conductive Concrete
AU - El-Hallak, Mona
AU - El-Mir, Abdulkader
AU - Najm, Omar
AU - El-Hassan, Hilal
AU - El-Dieb, Amr
N1 - Publisher Copyright:
© 2024, Avestia Publishing. All rights reserved.
PY - 2024
Y1 - 2024
N2 - The feasibility of blending carbon fiber (CF) with graphene powder (GP) to produce electrically conductive concrete has seen limited investigation. This study aims to optimize the mixture proportions of CF-GP blended electrically conductive concrete for superior durability and mechanical characteristics using the Taguchi optimization approach. The design of the experiments was carried out considering four factors, each having three levels. The resulting CF-GP blended electrically conductive concrete mixtures of the L9 orthogonal array were proportioned using different cement content, water-to-cement ratio, volume of ECM, and combination of ECM. Test methods included electrical conductivity and compressive strength. The two quality criteria were given equal weights to determine the optimal levels of factors. The method revealed that the optimum mix for electrical conductivity had a cement content of 400 kg/m3, w/c of 0.55, ECM volume of 6%, and ECM combination of 40/60, whereas for compressive strength it had a cement content of 300 kg/m3, w/c of 0.50, ECM volume of 2%, and ECM combination of 30/70. Experimental findings endorse the utilization of CF and GP in concrete as a means of improving the electrical performance of concrete.
AB - The feasibility of blending carbon fiber (CF) with graphene powder (GP) to produce electrically conductive concrete has seen limited investigation. This study aims to optimize the mixture proportions of CF-GP blended electrically conductive concrete for superior durability and mechanical characteristics using the Taguchi optimization approach. The design of the experiments was carried out considering four factors, each having three levels. The resulting CF-GP blended electrically conductive concrete mixtures of the L9 orthogonal array were proportioned using different cement content, water-to-cement ratio, volume of ECM, and combination of ECM. Test methods included electrical conductivity and compressive strength. The two quality criteria were given equal weights to determine the optimal levels of factors. The method revealed that the optimum mix for electrical conductivity had a cement content of 400 kg/m3, w/c of 0.55, ECM volume of 6%, and ECM combination of 40/60, whereas for compressive strength it had a cement content of 300 kg/m3, w/c of 0.50, ECM volume of 2%, and ECM combination of 30/70. Experimental findings endorse the utilization of CF and GP in concrete as a means of improving the electrical performance of concrete.
KW - Carbon fiber
KW - Concrete
KW - Electrical Conductivity
KW - Optimization
KW - graphene powder
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U2 - 10.11159/iccste24.195
DO - 10.11159/iccste24.195
M3 - Conference contribution
AN - SCOPUS:85200360043
SN - 9781990800382
T3 - International Conference on Civil, Structural and Transportation Engineering
BT - Proceedings of the 9th International Conference On Civil Structural and Transportation Engineering, ICCSTE 2024
A2 - Sennah, Khaled
PB - Avestia Publishing
T2 - 9th International Conference on Civil, Structural and Transportation Engineering, ICCSTE 2024
Y2 - 13 June 2024 through 15 June 2024
ER -