Research of utilization of a screen cullet in production of a glass-ceramic tile

Authors

  • Наталія Ігорівна Завгородня Ukrainian state chemical technological university 8 Gagarin ave., Dnepropetrovsk, Ukraine, 49005, Ukraine https://orcid.org/0000-0002-9744-7989

DOI:

https://doi.org/10.15587/2313-8416.2016.58794

Keywords:

screen cullet, inorganic glass ceramics, microcrystalline ceramics, inorganic secondary raw materials

Abstract

One of the directions of utilization of screen cullet of cathode ray tubes that came into disuse as inorganic valuable secondary raw materials is shown in the article. It was chosen as the aim: determine the optimal cullet content in the charge for making glass-ceramic tile. The basic method is the testing physical and chemical properties of experimental prototypes in conditions as close to real. It will be projected resource economy of inorganic secondary raw materials, reduction of harmful environmental impact of solid waste

Author Biography

Наталія Ігорівна Завгородня, Ukrainian state chemical technological university 8 Gagarin ave., Dnepropetrovsk, Ukraine, 49005

Department of technology of inorganic substances and ecology

 

References

Makovetska, Yu. M. (2011). Vtorunne resursokorustyvannia v Ukraini I regionalni aspektu iogo stanovlenia. Regionalna ekonomika, 3, 172–180.

Guhovetskui, V. B., Meller, V. Ya., Tygov, A. N. (2011). Ytilizacuya tverduh butovuh othodov. Dnepropetrovsk: Sviler A. L., 544.

Stepanchikova, N. G., Derevianko, A. V. (2010). Otechestvinui oput pererabotki stekloboya. Ekologiya: Energiya: ekonomika, tehnika, ekologiya, 3, 42–46.

Stepanchikova, N. G., Derevianko, A. V. (2010). Zarubegnui oput pererabotki stekloboya. Ekologiya: Energiya: ekonomika, tehnika, ekologiya, 1, 51–54.

Monchamp, A., Evans, H., Nardone, J., Wood, S., Proch, E., Wagner, T. (2001). Cathode ray tube manufacturing and recycling: analysis of industry survey. Proceedings of the 2001 IEEE International Symposium on Electronics and the Environment. 2001 IEEE ISEE (Cat. No.01CH37190). Denver, 41–51. doi: 10.1109/isee.2001.924500

Seo, Y.-C., Cho, S.-J., Lee, J.-S., Kim, B.-S., Oh, C. (2011). A Study on Recycling of CRT Glass Waste. Vol. 12. Singapore, 237–241. Available at: http://www.ipcbee.com/vol12/46-C20039.pdf

New approach to cathode ray tube (CRT) recycling (2013). Report prepared by icer for DTI, 1–34.

Brigden, K., Labunska, I., Santillo, D., Johnston, P. (2008). Chemical contamination at e-waste recycling and disposal sites in Accra and Korforidua, Ghana. Grenpeace reserch laboratories technical, 123.

Zagorodnjaja, N. I. (2013). Stady on recicling of CRT glass wast. Engineer of 3rd Milenium Students and post graduate students, 88.

Zagorodnjaja, N. I., Pivovarov, A. A. (2013). Ytilizaciya stekla otrabotanuh televizionnuh kineskopov i kompiyternuh monitorov iz tverduh butovuh othodov v neorganicheskie materealu. Voprosu himii i himicheskoi tehnologii, 3, 179–182.

Zagorodnjaja, N. I. (2014). Structure investigation of the recovered zinc sulfide from fulfilled electron-excited phosphorus. Technology audit and production reserves, 6/5 (20), 4–7. doi: 10.15587/2312-8372.2014.31883

Zagorodnjaja, N. I., Pivovarov, A. A. (2015). Vidnovlenia ZnS iz vidpratsovanuh televiziinuh kineskopiv ta kompiyternuh monitoriv. Pratsi odeskogo politehnichnogo yniversutety, 1 (45), 152–158.

Published

2016-01-25

Issue

Section

Technical Sciences