Capabilities of Polyethylene-ceramic Composite in Comparison with Polyethylene Film in Real Operation Conditions
( Pp. 67-72)
More about authors
Rakhimov Rustam Kh.
Doctor of Engineering; Head at the Laboratory No. 1; Institute of Materials Science of the SPA “Physics-Sun” of the Academy of Sciences of the Republic of Uzbekistan; Institute of Renewable Energy Sources
Institute of Materials Science of the SPA “Physics-Sun” of the Academy of Science of Uzbekistan
Tashkent, Republic of Uzbekistan Yermakov Vladimir P. senior research at the Laboratory No. 1; Institute of Materials Science of the Academy of Science of Uzbekistan; Tashkent, Republic of Uzbekistan Rakhimov Murod R. junior researcher at the Laboratory No. 1; Institute of Materials Science of the Academy of Science of Uzbekistan; Tashkent, Republic of Uzbekistan@yandex.com Mukhtorov Dilmurod N.
Fergana Polytechnic Institute
Fergana, Republic of Uzbekistan
Institute of Materials Science of the SPA “Physics-Sun” of the Academy of Science of Uzbekistan
Tashkent, Republic of Uzbekistan Yermakov Vladimir P. senior research at the Laboratory No. 1; Institute of Materials Science of the Academy of Science of Uzbekistan; Tashkent, Republic of Uzbekistan Rakhimov Murod R. junior researcher at the Laboratory No. 1; Institute of Materials Science of the Academy of Science of Uzbekistan; Tashkent, Republic of Uzbekistan@yandex.com Mukhtorov Dilmurod N.
Fergana Polytechnic Institute
Fergana, Republic of Uzbekistan
Abstract:
This article presents the results of full-scale tests of a polyethylene-ceramic composite in real conditions, at an altitude of 1100 meters above sea level. This is due to the fact that at this height the level of UV, which destroys polyethylene, is significantly higher than at sea level. In parallel, the results of testing a conventional polyethylene film were also carried out, for a comparative assessment of effectiveness.
How to Cite:
Rakhimov R.K., Yermakov V.P., Rakhimov M.R., Mukhtorov D.N., (2022), CAPABILITIES OF POLYETHYLENE-CERAMIC COMPOSITE IN COMPARISON WITH POLYETHYLENE FILM IN REAL OPERATION CONDITIONS. Computational Nanotechnology, 2 => 67-72.
Reference list:
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https://www.ngpedia.ru/id464966p4.html
Rashidov Zh.Kh. et al. A method for enriching kaolin raw materials and a device for its implementation. Russian patent No. RU2748082. Application: 2020128986, 01.09.2020. Registration date: 19.05.2021.
Rakhimov R.Kh., Ermakov V.P., Rakhimov M.R. Composition for obtaining a film-ceramic composite for solar dryers based on polyethylene. Patent for invention No. IAR 04844, 24.08.2011.
Rakhimov R.Kh., Kim E. Treatment of materials with infrared radiation. Patent SSHA 5472720 ot 5 dekabrya 1995.
Rakhimov R.Kh., Ermakov V.P., Rakhimov M.R. Synthesis of materials by radiation method and their application. Solar Engineering. 2022. No. 1. (In Rus.)
Ermakov V.P., Rakhimov M.R. Energy transfer efficiency of iron oxide-based film ceramic heat photon converter // Applied Solar Energy. 2009. No. 45. Pp. 200-202.
http://www.springerlink.com/content/ug35v5188814u5w7/
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Rachimov R.Kh. Mechanismus zur Erzeugung von Infrerotimpulsen mit funktionalen Keramiken // Freiberger Forschungshefte (Fraybergskie issledovatel skie papki). ZHurnal Gornoy Akademii. 2014. S. 1-13.
Rakhimov R.Kh., Saidov M.S., Ermakov V.P. Features of the synthesis of functional ceramics with a set of specified properties by the radiation method. Part 5: The mechanism of pulse generation by functional ceramics. Comp. Nanotechnol. 2016. No. 2. Pp. 81-93. (In Rus.)
Rakhimov R.Kh., Ermakov V.P., Rakhimov M.R. Phonon transformation mechanism in ceramic materials. Comp. Nanotechnol. 2017. No. 4. Pp. 21-35. (In Rus.)
Rakhimov R.Kh., Rashidov H.Kh., Ermakov V.P., et al. Features of the synthesis of functional ceramics with a set of specified properties by the radiation method. Part 4. Comp. Nanotechnol. 2016. No. 2. Pp. 77-80. (In Rus.)
Rakhimov R.Kh., Ermakov V.P., Rakhimov M.R., Latipov R.N. Features of the synthesis of functional ceramics with a set of specified properties by the radiation method. Part 6. Comp. Nanotechnol. 2016. No. 3. Pp. 6-34. (In Rus.)
https://www.ngpedia.ru/id464966p4.html
Rashidov Zh.Kh. et al. A method for enriching kaolin raw materials and a device for its implementation. Russian patent No. RU2748082. Application: 2020128986, 01.09.2020. Registration date: 19.05.2021.
Rakhimov R.Kh., Ermakov V.P., Rakhimov M.R. Composition for obtaining a film-ceramic composite for solar dryers based on polyethylene. Patent for invention No. IAR 04844, 24.08.2011.
Rakhimov R.Kh., Kim E. Treatment of materials with infrared radiation. Patent SSHA 5472720 ot 5 dekabrya 1995.
Rakhimov R.Kh., Ermakov V.P., Rakhimov M.R. Synthesis of materials by radiation method and their application. Solar Engineering. 2022. No. 1. (In Rus.)
Ermakov V.P., Rakhimov M.R. Energy transfer efficiency of iron oxide-based film ceramic heat photon converter // Applied Solar Energy. 2009. No. 45. Pp. 200-202.
http://www.springerlink.com/content/ug35v5188814u5w7/
Rachimov R.Kh., Ermakov V.P., John P., Rachimov M.R. Anwendung funktioneller keramiken fur technologien des trocknens mit impuls-infrarot // Freiberger Forschungshefte (Fraybergskie issledovatel skie papki). ZHurnal Gornoy Akademii. 2014. S. 1-44.
Rachimov R.Kh. Mechanismus zur Erzeugung von Infrerotimpulsen mit funktionalen Keramiken // Freiberger Forschungshefte (Fraybergskie issledovatel skie papki). ZHurnal Gornoy Akademii. 2014. S. 1-13.
Rakhimov R.Kh., Saidov M.S., Ermakov V.P. Features of the synthesis of functional ceramics with a set of specified properties by the radiation method. Part 5: The mechanism of pulse generation by functional ceramics. Comp. Nanotechnol. 2016. No. 2. Pp. 81-93. (In Rus.)
Rakhimov R.Kh., Ermakov V.P., Rakhimov M.R. Phonon transformation mechanism in ceramic materials. Comp. Nanotechnol. 2017. No. 4. Pp. 21-35. (In Rus.)
Keywords:
functional ceramics, energy conversion, infrared radiation, film-ceramic composite, deserts, Aral, pulsed radiation, ecology, energy saving.
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