TY - JOUR T1 - An Investigation on Acrylic Organic Coatings Including Colemanite and Zeolite for Glass Materials AU - Acaralı, Nil AU - Oktay, Rabia PY - 2018 DA - September DO - 10.18466/cbayarfbe.392448 JF - Celal Bayar University Journal of Science JO - CBUJOS PB - Manisa Celal Bayar Üniversitesi WT - DergiPark SN - 1305-130X SP - 257 EP - 260 VL - 14 IS - 3 LA - en AB - Today, acrylic organic coatings are very important point for glassmaterials because glass has very huge area in the industry. Glass mayphysically be defined as a rigid. In chemically, the non-volatile inorganicoxides form from the decomposition of alkali and alkaline compounds, sand, andother glass constituents. Especially, human being uses the glass as decorativeobject, bottles, eye glasses, windows, and kitchen utensils in daily life.Colemanite is a borate mineral and a secondary mineral that forms by alterationof borax and ulexite. Zeolites are microporous, aluminosilicate minerals. It iscommonly used as commercial adsorbents and catalysts. In this study, theacrylic organic coatings were tried to improve physical and chemical propertiesof glasses with using colemanite and zeolite. In addition, Taguchi Method wasused to optimize the parameters for obtaining high quality and low-costmaterials. The analysis results (TG-DTA, SEM) showed that the compositions of the all experiments were protectedin terms of thermal properties with additives and physical appearances of thesamples matched with reference sample. To conclude, additives are improved theproperties of organic coatings and the results showed that the coatingsproduced could be evaluated in the industry. KW - colemanite KW - glass KW - organic coating KW - zeolite CR - 1. Bunker, B.C., Tallant, D.R., Headley, T.J., Turner, G.L., Kirkpatrick, R.J., The structure of leached sodium borosilicate glass, Physics and Chemistry of Glasses, 1988, 29(3), 106-120. CR - 2. www.etimaden.gov.tr (accessed date, 07.02.2018). CR - 3. Woods, W.G., An introduction to boron: history, sources, uses, and chemistry, Environmental Health Perspectives, 1994, 102, 5-11. CR - 4. Kaplan, İ., Keleş, S., Tatar, A., Geyikoğlu F., Turkez H., The effects of some boron compounds against heavy metal toxicity in human blood, Experimental and Toxicologic Pathology, 2012, 64(1-2), 93-101. CR - 5. Muller, F.B., McSweeney, G., Toxicity of borates to turnips, New Zealand Journal of Experimental Agriculture, 1976, 4(4), 451-455. CR - 6. Pavlyukevich, Y.G., Levitskii, I.A., Mazura, N.V., Use of colemanite in glass fiber production, Glass and Ceramics, 2009, 66(9-10), 9-12. CR - 7. Atar, N., Olgun, A., Removal of acid blue 062 on aqueous solution using calcinated colemanite ore waste, Journal of Hazardous Materials, 2007, 146(1-2), 171-179. CR - 8. Waclawska, I., Thermal behaviour of mechanically amorphized cole-manite, Journal of Thermal Analysis, 1997, 48, 145-154. CR - 9. Alkan, M., Kocakerim, M., Çolak, S., Dissolution kinetics of coleman-ite in water saturated by carbon dioxide, Journal of Chemical Technolo-gy and Biotechnology, 1985, 35A, 382-386. CR - 10. Mazura N.V., Levitskii I.A., Use of colemanite for improving the quality of unfritted glazes, Glass and Ceramics, 2008, 65(1-2), 19-22. CR - 11. Jin, X., Jiang, M., Shan, X., Pei, A., Chen, Z., Adsorption of meth-ylene blue and orange II onto unmodified and surfactant-modified zeo-lite, Journal of Colloide and Interface Science, 2008, 328(2), 243-247. CR - 12. Busca, G., Acidity, and basicity of zeolites: A fundamental approach, Microporous and Mesoporous Materials, 2017, 254, 3-16. CR - 13. Guzik, F., Hierarchical zeolites: synthesis and catalytic properties, Microporous and Mesoporous Materials, 2018, 259, 33-45. CR - 14. Davis, M., Lobo, R.F., Zeolite and molecular sieve synthesis, Chemistry of Materials, 1992, 4, 756-768. CR - 15. Auerbach, S.M., Carrado, K.A., Dutta, P.K., Handbook of zeolite science and technology, Marcel Dekker Inc., 2013, New York. CR - 16. https://cameochemicals.noaa.gov (accessed date, 07.02.2018). CR - 17. https://echa.europa.eu (accessed date, 07.02.2018). CR - 18. https://www.cdc.gov (accessed date, 07.02.2018). CR - 19. http://www.ilo.org (accessed date, 07.02.2018). CR - 20. https://clinicaltrials.gov (accessed date, 07.02.2018). CR - 21. Haines, P.J., Thermal methods of analysis: principles, applications and problems, Springer Science and Business Media, United Kingdom, UR - https://doi.org/10.18466/cbayarfbe.392448 L1 - https://dergipark.org.tr/tr/download/article-file/545261 ER -