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Üleksit Minerali İçeren Dekoratif Cam Organik Kaplama Özelliklerinin Optimizasyonu ve İyileştirilmesi

Year 2021, Issue: 27, 665 - 669, 30.11.2021
https://doi.org/10.31590/ejosat.892579

Abstract

Günümüzde cam kaplamalar sektörde geniş bir yelpazeye sahip ve önemli bir araştırma konusu olmuştur. Özellikle günlük hayatta camın dekoratif obje olarak kullanılması tercih edilmektedir. Bu çalışmada üleksit kullanılarak dekoratif cam kaplama geliştirilmeye çalışılmıştır. Üleksit minerali, beyaz yuvarlak kristal kütlelerden oluşan bir mineraldir. Test sonuçları (görsel, hidrofobiklik, yapışma testleri vb.) dekoratif cam kaplama üretiminde üleksitin katkı maddeleri (potasyum dikromat ve yüzey aktif madde) ile kullanımının kaplama özelliklerini olumlu yönde etkilediğini göstermiştir. Deneysel çalışmada, optimizasyon yöntemi olarak Taguchi Yöntemi kullanılmış ve optimum süreç parametrelerini belirlemek için maliyet ve kaliteyi iyileştirmek için sonuçlar analiz edilmiştir. Hazırlanan kaplamaların termal özelliklerini ve fiziksel morfolojik özelliklerini karakterize etmek için TG-DTA (Termal Gravimetrik Diferansiyel Termal Analiz) ve SEM (Taramalı Elektron Mikroskobu) yöntemleri kullanıldı. Hazırlanan kaplamalara eklenen katkı maddelerinin kaplamanın yapısına olumsuz bir etkisi olmadığı görülmüştür. Sonuç olarak, kullanılan katkı maddeleri cam kaplamaların özelliklerini iyileştirmiş ve sonuçlar çeşitli endüstrilerde hazırlanan katkı kaplamalarının değerlendirilebileceğini göstermiştir.

References

  • Pavlyukevich, Y. G. Levitskii, I. A., Mazura, N. V. Use of colemanite in glass fiber production, glass and ceramics, 66(9-12), (2009), 345-349.
  • Woods, W. G. An introduction to boron: history, sources, uses, and chemistry, environmental health perspectives, 102, (1994), 5-11.
  • Turkez, H. Geyikoglu, F. Tatar, A. Keles, M. S., Kaplan, I. The effects of some boron compounds against heavy metal toxicity in human blood, experimental and toxicologic pathology, 64(1-2), (2010), 93-101.
  • Muller, F. B., McSweeney, G. Toxicity of borates to turnips, New Zealand, Journal of Experimental Agriculture, 4(4), (1976), 451-455.
  • www. etimaden.gov.tr, Accessed Date: 23.07.2020.
  • Küçük, Ö., Kocakerim, M. M. Optimization of dissolution of ulexite in water saturated with sulphur dioxide, Chemical Engineering and Processing: Process Intensification, 44(9), (2005), 1005-1011.
  • Topaksu, M. Correcher, V. Garcia-Guinea, J., Yüksel, M. Effect of heating rate on the thermoluminescence and thermal properties of natural ulexite, Applied Radiation and Isotopes, 95, (2015), 222-225.
  • Stoch, L., Waclawska, I. Thermal decomposition of ulexite, Journal of Thermal Analysis, 36, (1990), 2045-2054.
  • Ruoyu, C. Jun, L. Shuping X., Shiyang, G. Thermochemistry of ulexite, Thermochimica Acta, 306(1-2), (1997), 1-5.
  • Topaksu, M. Correcher, V., Garcia-Guinea, J. Thermoluminescence sensitivity of ulexite after UV irradiation, Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 349, (2015), 17-23.
  • https://cameochemicals.noaa.gov, Accessed Date: 23.07.2020.
  • https://echa.europa.eu, Accessed Date: 23.07.2020.
  • https://www.cdc.gov, Accessed Date: 23.07.2020.
  • http://www.ilo.org, Accessed Date: 23.07.2020.
  • https://clinicaltrials.gov, Accessed Date: 23.07.2020.
  • Vankanti, V. K. and Ganta, V. Optimization of process parameters in drilling of GFRP composite using Taguchi method, Journal of Materials Research and Technology, 3(1), (2014), 35-41.
  • Tong, L. I. Su, C. T., Wang, C. H. The optimization of multi-response problems in the Taguchi method, International Journal of Quality & Reliability Management, 14(4), (1997), 367–380.
  • Phadke, S. M. Quality engineering using robust design, Prentice Hall, Englewood Cliffs, New Jersey, USA, 1989.
  • Kaushik, G., Thakur, I. S. Isolation and characterization of distillery spent wash color reducing bacteria and process optimization by Taguchi approach, International Biodeterioration&Biodegradation, 63(4), (2009), 420-426.
  • ISO 2884-2. Paints and varnishes-Determination of viscosity using rotary viscometers-Part 2: Disc or ball viscometer operated at a specified speed (2003).
  • BS EN ISO 9117. Paints and Varnishes-Drying Tests (2009).
  • Kendall, K. The adhesion and surface energy of elastic solids, Journal of Physics D: Applied Physics, 4, (1971), 1186-1195.
  • BS EN ISO 2409. Method of Test for Paints. Cross-Cut Tests (2013).
  • ASTM D714 – 02. Standard Test Method for Evaluating Degree of Blistering of Paints (2017).

Optimization and Enhancement of Decorative Glass Organic Coating Properties Containing Ulexite Mineral

Year 2021, Issue: 27, 665 - 669, 30.11.2021
https://doi.org/10.31590/ejosat.892579

Abstract

Today, glass coatings have a wide range in the industry and have been an important research topic. It is preferred to use glass as a decorative object especially in daily life. In this study, decorative glass coating was tried to be developed with the use of ulexite. The ulexite mineral is a mineral consisting of white round crystalline masses. Test results (visual, hydrophobicity, adhesion tests, etc.) showed that the use of ulexite with additives (potassium dichromate and surfactant) positively affects the coating properties in decorative glass coating production. In the experimental study, Taguchi Method was used as an optimization method and the results were analyzed to improve cost and quality to determine the optimum process parameters. TG-DTA (Thermal Gravimetric Differential Thermal Analysis) and SEM (Scanning Electron Microscope) methods were used to characterize the thermal properties and physical morphological properties of the coatings prepared. It was observed that the additives added in the coatings prepared did not have a negative effect on the structure of the coating. As a result, the additives used improved the properties of glass coatings and the results showed that additive coatings prepared in various industries can be evaluated.

References

  • Pavlyukevich, Y. G. Levitskii, I. A., Mazura, N. V. Use of colemanite in glass fiber production, glass and ceramics, 66(9-12), (2009), 345-349.
  • Woods, W. G. An introduction to boron: history, sources, uses, and chemistry, environmental health perspectives, 102, (1994), 5-11.
  • Turkez, H. Geyikoglu, F. Tatar, A. Keles, M. S., Kaplan, I. The effects of some boron compounds against heavy metal toxicity in human blood, experimental and toxicologic pathology, 64(1-2), (2010), 93-101.
  • Muller, F. B., McSweeney, G. Toxicity of borates to turnips, New Zealand, Journal of Experimental Agriculture, 4(4), (1976), 451-455.
  • www. etimaden.gov.tr, Accessed Date: 23.07.2020.
  • Küçük, Ö., Kocakerim, M. M. Optimization of dissolution of ulexite in water saturated with sulphur dioxide, Chemical Engineering and Processing: Process Intensification, 44(9), (2005), 1005-1011.
  • Topaksu, M. Correcher, V. Garcia-Guinea, J., Yüksel, M. Effect of heating rate on the thermoluminescence and thermal properties of natural ulexite, Applied Radiation and Isotopes, 95, (2015), 222-225.
  • Stoch, L., Waclawska, I. Thermal decomposition of ulexite, Journal of Thermal Analysis, 36, (1990), 2045-2054.
  • Ruoyu, C. Jun, L. Shuping X., Shiyang, G. Thermochemistry of ulexite, Thermochimica Acta, 306(1-2), (1997), 1-5.
  • Topaksu, M. Correcher, V., Garcia-Guinea, J. Thermoluminescence sensitivity of ulexite after UV irradiation, Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 349, (2015), 17-23.
  • https://cameochemicals.noaa.gov, Accessed Date: 23.07.2020.
  • https://echa.europa.eu, Accessed Date: 23.07.2020.
  • https://www.cdc.gov, Accessed Date: 23.07.2020.
  • http://www.ilo.org, Accessed Date: 23.07.2020.
  • https://clinicaltrials.gov, Accessed Date: 23.07.2020.
  • Vankanti, V. K. and Ganta, V. Optimization of process parameters in drilling of GFRP composite using Taguchi method, Journal of Materials Research and Technology, 3(1), (2014), 35-41.
  • Tong, L. I. Su, C. T., Wang, C. H. The optimization of multi-response problems in the Taguchi method, International Journal of Quality & Reliability Management, 14(4), (1997), 367–380.
  • Phadke, S. M. Quality engineering using robust design, Prentice Hall, Englewood Cliffs, New Jersey, USA, 1989.
  • Kaushik, G., Thakur, I. S. Isolation and characterization of distillery spent wash color reducing bacteria and process optimization by Taguchi approach, International Biodeterioration&Biodegradation, 63(4), (2009), 420-426.
  • ISO 2884-2. Paints and varnishes-Determination of viscosity using rotary viscometers-Part 2: Disc or ball viscometer operated at a specified speed (2003).
  • BS EN ISO 9117. Paints and Varnishes-Drying Tests (2009).
  • Kendall, K. The adhesion and surface energy of elastic solids, Journal of Physics D: Applied Physics, 4, (1971), 1186-1195.
  • BS EN ISO 2409. Method of Test for Paints. Cross-Cut Tests (2013).
  • ASTM D714 – 02. Standard Test Method for Evaluating Degree of Blistering of Paints (2017).
There are 24 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Articles
Authors

Nil Acaralı 0000-0003-4618-1540

Rabia Oktay 0000-0002-0906-1083

Early Pub Date July 29, 2021
Publication Date November 30, 2021
Published in Issue Year 2021 Issue: 27

Cite

APA Acaralı, N., & Oktay, R. (2021). Optimization and Enhancement of Decorative Glass Organic Coating Properties Containing Ulexite Mineral. Avrupa Bilim Ve Teknoloji Dergisi(27), 665-669. https://doi.org/10.31590/ejosat.892579