Aykut Ak, M. Sc. Student

Department of Materials Science and Engineering Chair of Material Science​

Gizemfrit Inc, R&D Center - Sakarya,Turkey

aykut.ak@gizemfrit.com

aykut.ak@std.yildiz.edu.tr

https://tr.linkedin.com/in/aykutak

Glass-Ceramic Thin Film Synthesis Via Sol-Gel Method


Sol-Gel is a well-known method for producing bulk glasses, ceramics, aerogels, fibers, nano
powder or hybrid coatings. Especially hybrid coatings with this method has lots of advantages
comes from both inorganic and organic structure [1] . Sol-Gel has good adhesion to various
material surfaces such as wood, most of the metals, glass and polymers. Also because of its low
temperature curable structure, these surfaces do not expose to high temperatures so it counts
as an eco-friendly method [2] . Instead of low densification temperature such as 150°C,
inorganic network in the film body can become relatively hard and abrasion resistant [3] . This
adhesive and hard surface resists against to scratches and keeps the body stable. Hard
inorganic network causes stress accumulations that can cause cracks in the body [4] . Organic
matrix in the hybrid coating gives Flexibility to the film body so stress and cracks can be
decreased by this way [5] . This kind of films can be used as cookware materials’ coating and
corrosion resistant on metallic surfaces. This project is a collaboration of Advanced Ceramics
Research Group with industrial, academic partners and supported by TÜBİTAK(The Scientific
And Technological Research Council Of Turkey).

REFERENCES

[1] C. J. R. S. E. V. P. R. B. Figueira, «Organic–inorganic hybrid sol–gel coatings for metal corrosion
protection: a review of recent progress,» Journal of Coatings Technology and Research, cilt 12, no.
1, pp. 1-35, 2015.
[2] N. K. B. W. H. S. S. Sepeur, «UV curable hard coatings on plastics,» Thin Solid Films, cilt 351, no. 1-2,
pp. 216-219, 1999.
[3] E. P. B. JOHN D. MACKENZIE, «Physical Properties of Sol-Gel Coatings,» Journal of Sol-Gel Science
and Technology, cilt 19, pp. 23-29, 2000.
[4] S. T. H. T. T. H. Y. H. T. H. Hiromitsu Kozuka, «Stress and Cracks in Gel-Derived Ceramic Coatings
and Thick Film Formation,» Journal of Sol-Gel Science and Technology, cilt 26, no. 1-3, pp. 681-686,
2003.
[5] G. W. S. J. Jeffrey Brinker, Sol-Gel Science;, New York: Academic Press, INC., 1990, pp. 82-88.

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