References
- Elnaggar EM, Elsokkary TM, Shohide MA, et al. Surface protection of concrete by new protective coating. Constr Build Mater. 2019;220:245–252.
- Li G, Hu WJ, Cui HY, et al. Long-term effectiveness of carbonation resistance of concrete treated with nano-SiO2 modified polymer coatings. Constr Build Mater. 2019;201:623–630.
- Yu CJ, Ri BH, Kim CH, et al. Formation and characterization of ceramic coating from alumino silicate mineral powders in the matrix of cement composite on the concrete wall. Mater Chem Phys. 2019;227:211–218.
- Roghanian N, Banthia N. Development of a sustainable coating and repair material to prevent biocorrosion in concrete sewer and waste-water pipes. Cement Concrete Comp. 2019;100:99–107.
- Diamanti MV, Brenna A, Bolzoni F, et al. Effect of polymer modified cementitious coatings on water and chloride permeability in concrete. Constr Build Mater. 2013;49:720–728.
- Usuki A, Koiwai A, Kojima Y, et al. Interaction of nylon 6-clay surface and mechanical properties of nylon 6-clay hybrid. J Appl Polym Sci. 1995;55(1):119–123.
- Lan T, Kaviratna PD, Pinnavaia TJ. Mechanism of clay tactoid exfoliation in epoxy-clay nanocomposites. Chem Mater. 1995;7(11):2144–2150.
- Zhao TJ. Surface treatment of permeable coatings and durability of concrete. Beijing, China: Science Press; 2009. p. 34–35.
- Zhang G, Xie Q, Ma C, et al. Permeable epoxy coating with reactive solvent for anticorrosion of concrete. Prog Org Coat. 2018;117:29–34.
- Zhang BJ, Yin HY, Chen DY, et al. Bioinorganic material–the crude ca-oxalate conservation film on historic stone. J Inorg Mater. 2001;16(4):752–756.
- Zhang BJ. The forming mechanism and chemical bionics of crude calcium oxalate biomineralized coatings development of a new surface conservation material for historic stone relics. Acta Min Sin. 2001;3:319–322.
- Qiang Z. Bioinspired preparation of a protective biomineralized material on the surfaces of historic stones. Acta Chim Sin. 2006;64(15):1601–1605.
- Dong B, Yang L, Yuan Q, et al. Characterization and evaluation of the surface free energy for cementitious materials. Constr Build Mater. 2016;110:163–168.
- Güleç HA, Sarıogˇlu K, Mutlu M. Modification of food contacting surfaces by plasma energy polymerisation technique. Part I: determination of hydrophilicity, hydrophobicity and surface free by contact angle method. J Food Eng. 2006;75(2):187–195.