PSI - Issue 28

Angeliki-Eirini Dimou et al. / Procedia Structural Integrity 28 (2020) 1694–1701 A.-E. Dimou et al. / Structural Integrity Procedia 00 (2019) 000–000

1701

8

Gillani, S.S., Khitab, A., Ahmad, S., Khushnood, R.A., Ferro, G.A., Kazmi, S.M.S., Qureshi, L.A., Restuccia, L., 2017. Improving the mechanical performance of cement composites by carbon nanotubes addition. Procedia Structural Integrity 3, 11-17. Jafariesfad, N., Geiker, M.R., Gong, Y., Skalle, P., Zhang, Z., He, J., 2017. Cement sheath modification using nanomaterials for long-term zonal isolation of oil wells: Review. Journal of Petroleum Science and Engineering 156, 662-672. Lee, H.K., Nam, I.W., Tafesse, M., Kim, H.K., 2019. Fluctuation of electrical properties of carbon-based nanomaterials/cement composites: Case studies and parametric modeling. Cement and Concrete Composites 102, 55-70. Lee, H., Yu, W., Loh, K.J., Chung, W., 2020. Self-heating and electrical performance of carbon nanotube-enhanced cement composites. Construction and Building Materials 250, 118838. Li, X., Wang, L., Liu, Y., Li, W., Dong, B., Duan, W.H., 2018. Dispersion of graphene oxide agglomerates in cement paste and its effects on electrical resistivity and flexural strength. Cement and Concrete Composites 92, 145-154. Li, Z., Wang, L., Li, Y., Feng, Y., Feng, W., 2019. Carbon-based functional nanomaterials: Preparation, properties and applications. Composites Science and Technology 179, 10-40. Lv, S., Ma, Y., Qiu, C., Sun, T., Liu, J., Zhou, Q., 2013. Effect of graphene oxide nanosheets of microstructure and mechanical. Construction and Building Materials 49, 121-127. Madbouly, A.I., Mokhtar, M.M., Morsy, M.S., 2020. Evaluating the performance of rGO/cement composites for SHM applications. Construction and Building Materials 250, 118841. Meirinho, S.G., Ferraria, A.M., Botelho do Rego, A.M., Fernandes, A.J.S., Viana, A.S., Fernandes, J.C.S., Oliveira, M.C., 2020. Electrochemical properties of oxygen-enriched carbon-based nanomaterials. Journal of Electroanalytical Chemistry 873, 114420. Metaxa, Z.S., 2015. Polycarboxylate Based Superplasticizers as Dispersant Agents for Exfoliated Graphene Nanoplatelets Reinforcing Cement Based Materials. Journal of Engineering Science and Technology Review 8, 1-5. Mohsen, M.O., Taha, R., Taqa, A.A., Shaat, A., 2017. Optimum carbon nanotubes’ content for improving flexural and compressive strength of cement paste. Construction and Building Materials 150, 395-403. Mokhtar, M.M., Abo-El-Enein, A.S., Hassaan, M.Y., Morsy, M.S., Khalil, M.H., 2017. Mechanical performance, pore structure and micro structural characteristics of graphene oxide nano platelets reinforced cement. Construction and Building Materials 138, 333-339. Peng, H., Ge, Y., Cai, C.S., Zhang, Y., Liu, Z., 2019. Mechanical properties and microstructure of graphene oxide cement-based composites. Construction and Building Materials 194, 102-109. Phrompet, C., Sriwong, C., Ruttanapun, C., 2019. Mechanical, dielectric, thermal and antibacterial properties of reduced graphene oxide (rGO)- nanosized C3AH6 cement nanocomposites for smart cement-based materials. Composites Part B 175, 107128. Qureshi, T.S., Panesar, D.K., 2020. Nano reinforced cement paste composite with functionalized graphene and pristine graphene nanoplatelets. Composites Part B 197, 108063. Roy, R., Mitra, A., Ganesh, A.T., Sairam, V., 2018. Effect of Graphene Oxide Nanosheets dispersion in cement mortar composites incorporating Metakaolin and Silica Fume. Construction and Building Materials 186, 514-524. Sun, S., Han, B., Jiang, S., Yu, X., Wang, Y., Li, H., Ou, J., 2017. Nano graphite platelets-enabled piezoresistive cementitious composites for structural health monitoring. Construction and Building Materials 136, 214-328. Valizadeh Kiamahalleh, M., Gholampour, A., Tran, D.N.H., Ozbakkaloglu, T., Losic, D., 2020. Physiochemical and mechanical properties of reduced graphene oxide–cement mortar composites: Effect of reduced graphene oxide particle size. Construction and Building Materials 250, 118852. Velosa, A., Veiga, M., 2007. Lime-metakaolin mortars Properties and applications. Portugal SB 2007 - Sustainable Construction, Materials and Practices: Challenge of the Industry for the New Millennium, 775-780. Wang, H., Gao, X., Liu, J., Ren, M., Lu, A., 2018. Multi-Functional properties of carbon nanofiber reactive powder concrete. Construction and Building Materials 187, 699-707. Xu, J., Zhang, D., 2017. Pressure-sensitive properties of emulsion modified graphene nanoplatelets/cement composites. Cement and Concrete Composites 84, 74-82. Yang, C., Liu, S., Feng, Y., Yang, H., 2018. Influence of electrode polarization on the potential of DC electrical exploration. Journal of Applied Geophysics 149, 63-76. Yoo, D.Y., You, I., Zi, G., Lee, S.J., 2019. Effects of carbon nanomaterial type and amount on self-sensing capacity. Measurement 134, 750-761.