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ABSTRACT

Liquid SiO2 solutions produced by silicon-based nano- powder are covered on the fabric surface by using spray method. Fabric surfaces were coated at the room temperature in air with the different spray nozzles. Surface analysis of the coated fabric was performed by using Contact Angle and SEM pictures. According to the Contact Angles measurements, the coated fabric surfaces showed hydrophobic character between 126 and 146 degrees, and the SiO2 particles sticked to the fabric fibers as seen from SEM picture.

KEYWORDS

SiO2 nano glass, nano coating, nanotechnology, advanced materials, and textile products.

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References

[1] Linemann, R., Gorenberg, A., Bar, G., Cantow, H. J., and Mulhaupt, R. 1997. “Synthesis of Flüorine-Containing Dispersions and an Environmental Scanning Electron Microscope Analysis of Their Morphology When Applied to Cotton Fabrics.” J. Coating Technol 69 (871):77-81.

[2] Easter, E. P., and Ankenman, B. E. 2005. “A Comparison of Soil Repellent  vs Dual Action Fluorocarbon Finishes on Cotton Blends.” AATCC Rev 5 (11): 27-31.

[3] Mahltig, B., and Bottcher, H. 2003. “Modified Silica Sol Coatings for Water-Repellent Textiles.” J. Sol–Gel Sci Technol 27 (1): 43-52

[4] Yeh, J. T., Chen, C. L., and Huang, K. S. 2007. “Preperation and Application of Fluorocarbon Polymer SiO2 Hybrid Materials.” J. Appl Polym Sci. 103 (2): 1140-5.

[5] Daoud, W. A., Xin, J. H., and Tao, X. M. 2004. “Superhydrophobic Silica Nanocomposite Coating by a Low-Temperature Process.” J. Am Ceram Soc. 87 (9): 1782-4.

[6] Adamson, A. W. 1990. “Contact Angle.” İn Phys. Chem. of Surfaces. 5th Ed. NY: Wiley.

[7] Parker, A. R., and Lawrence, C. R. 2001. “Water Capture by a Desert Beetle.” Nature 414: 33-4.

[8] Akamatsu, Y., Makita, K., Inaba, H., and Minami, T. 2001. “Water-Repellent Coating Films on Glass Prepared from Hydrolysis and Polycondensation Reactions of Fluoroalkyltrialkoxylsilane.” Thin Solid Films 389 (1, 2): 138-45.

[9] Shimojima, A., and Kuroda, K. 2002. “Structural Control of Multilayered Inorganic-Organic Hybrids Derived from Mixtures of Nanocomposite Films from Alkyltrialkoxy-silane-Tetraalkoxysilane.” Langmuir 18 (4): 1144-9.

[10] Yuasa, A., Inaba, H., Tadanaga, K., Tatsumisago, M., and Minami, T. 1995. “Preparation of Water-Repellent Coating Films by the Sol-Gel Method.” Proc. Int. Congr. Glass 17 (4): 445-9.

[11] Wallington, T. J., and Nielsen, O. J. 2002. Handbook of Environmental Chemistry. Berlin, Germany: Springer.

[12] Walid, A. D., John, H. X., and Tao, X. 2004. “Superhydrophobic Silica Nanocomposite Coating by a Low-Temperature Process.” J. Am. Ceram. Soc. 87 (9): 1782-4.

[13] Hoefnagels, H. F., Wu, D., De, W. G., and Ming, W. 2007. “Biomimetic Superhydrophobic and Highly Oleophobic Cotton Textiles.” Langmuir the Acs Journal of Surfaces & Colloids 23 (26): 13158.

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