Features of the ITE-Based Polymerization Process
( Pp. 157-173)
More about authors
Rakhimov Rustam Kh.
Dr. Sci. (Eng.); Head, Laboratory No. 1; Institute of Materials Science of the SPA “Physics-Sun” of the Academy of Sciences of the Republic of Uzbekistan; Tashkent, Republic of Uzbekistan
Белорусский государственный университет
г. Минск, Республика Беларусь Yermakov Vladimir P. senior research, Laboratory No. 1; Institute of Materials Science of the Academy of Science of Uzbekistan; Tashkent, Republic of Uzbekistan
Белорусский государственный университет
г. Минск, Республика Беларусь Yermakov Vladimir P. senior research, Laboratory No. 1; Institute of Materials Science of the Academy of Science of Uzbekistan; Tashkent, Republic of Uzbekistan
Abstract:
The article discusses the application of the pulsed tunnel effect for obtaining polymeric materials. The main polymerization processes are analyzed, as well as the disadvantages of traditional technologies. The advantages of using the pulse tunnel effect to increase the efficiency of polymerization are considered. Examples of successful application of the method for obtaining hydrogen and paint coatings are given. The prospects for further development of research in this area are considered, including the development of pulse generator materials and innovative polymeric materials.
How to Cite:
Rakhimov R.Kh., Yermakov V.P. Features of the ITE-Based Polymerization Process. Computational Nanotechnology. 2024. Vol. 11. No. 2. Pp. 157–173. DOI: 10.33693/2313-223X-2024-11-2-157-173. EDN: MXFORZ
Reference list:
Rakhimov R.Kh. Possible mechanism of pulsed quantum tunneling effect in photocatalysts based on nanostructured functional ceramics. Computational Nanotechnology. 2023. Vol. 10. No. 3. Pp. 26–34. DOI: 10.33693/2313- 223X-2023-10-3-26-34. EDN: QZQMCA.
Rakhimov R.Kh. Pulsed tunneling effect: Fundamentals and application prospects. Computational Nanotechnology. 2024. Vol. 11. No. 1. Pp. 193–213. (In Rus.). DOI: 10.33693/2313-223X-2024-11- 1-193-213. EDN: EWSBUT.
Rakhimov R.Kh. Possibilities of pulsed energy converters as photocatalysts in hydrogen energy. Proceedings of the III International Conference “Trends in the Development of Condensed Matter Physics”, Fergana, October 30–31, 2023. Fergana, 2023. Pp. 297–300.
Rakhimov R.Kh., Ermakov V.P. Prospects of solar energy: The role of modern solar technologies in hydrogen production. Computational Nanotechnology. 2023. Vol. 10. No. 3. Pp. 11–25. (In Rus.). DOI: 10.33693/2313-223X-2023-10-3-11-25. EDN: NQBORL.
Rakhimov R.Kh., Ermakov V.P., Rakhimov M.R. Synthesis of materials by the radiation method and their application. Applied Solar Energy. 2022. Vol. 58. No. 1. Pp. 165–171.
Rakhimov R.Kh., Ermakov V.P., Rakhimov M.R. Phonon mechanism of transformation in ceramic materials. Computational Nanotechnology. 2017. No. 4. Pp. 21–35. (In Rus.)
Rakhimov R.Kh. Big solar furnace. Computational Nanotechnology. 2019. No. 2. Pp. 141–150. (In Rus.)
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: Mechanism of pulse generation by functional ceramics. Computational Nanotechnology. 2016. No. 2. Pp. 81–93. (In Rus.)
Rakhimov R.Kh. US patent No. 5.472.720 registration date 12/05/1995. Treatment of materials with infrared radiation (Co-author E.V. Kim).
Rakhimov R.Kh. US patent No. 5.350.927 registered on September 27, 1994. Radiation emitting ceramic materials and devices containing the same (Co-author E.V. Kim).
Rakhimov R.Kh. US patent No. US 6.200.501 B1 registration date 03/13/2001. Electroconductive ceramic material.
Rakhimov R.Kh. US patent No. US 6.251.306 B1 date of registration 06/26/2001. Infrared radiation emitting ceramic material.
Pippard A. Physics of oscillations. Transl. from English. Moscow: Higher School, 1989. 264 p.
Fomenko V.S. Emission properties of materials. Handbook. Kiev: Naukova Dumka, 1970. 145 p.
Lyubin G. Handbook of composite materials. Moscow: Engineering, 1988. Vol. 1. 448 p.; Vol. 2. 584 p.
Levitin I.B. Use of infrared technology in the national economy Leningrad, Energoizdat, 1981. P. 264.
Rakhimov R.Kh., Saidov M.S. Ceramics with an energy barrier and two-pulse temperature radiation. Heliotechnics. 2002. No. 3. Pp. 71–74. (In Rus.)
Rakhimov R.Kh. Principles of development of materials with a set of specified properties during synthesis on BSP. Proceedings of the conference dedicated to the 90th anniversary of S.A. Azimov. Tashkent, 2004. Pp. 176–178.
Rachimov R.C., Ermakov V.P., John P., Rachimov M.R. Application of ceramic functionalities for thermal shock technologies with pulsed infrared. In: Freiberger Forschungshefte. 2014. Pp. 1–44.
Rakhimov R.Kh., Saidov M.S. Development of ceramic coatings and application of their infrared radiation. Proceedings of the international conference “Renewable energy sources and solar materials science”. Tashkent, 2005. Pp. 204–211.
Rakhimov R.Kh. Pulsed tunneling effect: Fundamentals and application prospects. Computational Nanotechnology. 2024. Vol. 11. No. 1. Pp. 193–213. (In Rus.). DOI: 10.33693/2313-223X-2024-11- 1-193-213. EDN: EWSBUT.
Rakhimov R.Kh. Possibilities of pulsed energy converters as photocatalysts in hydrogen energy. Proceedings of the III International Conference “Trends in the Development of Condensed Matter Physics”, Fergana, October 30–31, 2023. Fergana, 2023. Pp. 297–300.
Rakhimov R.Kh., Ermakov V.P. Prospects of solar energy: The role of modern solar technologies in hydrogen production. Computational Nanotechnology. 2023. Vol. 10. No. 3. Pp. 11–25. (In Rus.). DOI: 10.33693/2313-223X-2023-10-3-11-25. EDN: NQBORL.
Rakhimov R.Kh., Ermakov V.P., Rakhimov M.R. Synthesis of materials by the radiation method and their application. Applied Solar Energy. 2022. Vol. 58. No. 1. Pp. 165–171.
Rakhimov R.Kh., Ermakov V.P., Rakhimov M.R. Phonon mechanism of transformation in ceramic materials. Computational Nanotechnology. 2017. No. 4. Pp. 21–35. (In Rus.)
Rakhimov R.Kh. Big solar furnace. Computational Nanotechnology. 2019. No. 2. Pp. 141–150. (In Rus.)
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: Mechanism of pulse generation by functional ceramics. Computational Nanotechnology. 2016. No. 2. Pp. 81–93. (In Rus.)
Rakhimov R.Kh. US patent No. 5.472.720 registration date 12/05/1995. Treatment of materials with infrared radiation (Co-author E.V. Kim).
Rakhimov R.Kh. US patent No. 5.350.927 registered on September 27, 1994. Radiation emitting ceramic materials and devices containing the same (Co-author E.V. Kim).
Rakhimov R.Kh. US patent No. US 6.200.501 B1 registration date 03/13/2001. Electroconductive ceramic material.
Rakhimov R.Kh. US patent No. US 6.251.306 B1 date of registration 06/26/2001. Infrared radiation emitting ceramic material.
Pippard A. Physics of oscillations. Transl. from English. Moscow: Higher School, 1989. 264 p.
Fomenko V.S. Emission properties of materials. Handbook. Kiev: Naukova Dumka, 1970. 145 p.
Lyubin G. Handbook of composite materials. Moscow: Engineering, 1988. Vol. 1. 448 p.; Vol. 2. 584 p.
Levitin I.B. Use of infrared technology in the national economy Leningrad, Energoizdat, 1981. P. 264.
Rakhimov R.Kh., Saidov M.S. Ceramics with an energy barrier and two-pulse temperature radiation. Heliotechnics. 2002. No. 3. Pp. 71–74. (In Rus.)
Rakhimov R.Kh. Principles of development of materials with a set of specified properties during synthesis on BSP. Proceedings of the conference dedicated to the 90th anniversary of S.A. Azimov. Tashkent, 2004. Pp. 176–178.
Rachimov R.C., Ermakov V.P., John P., Rachimov M.R. Application of ceramic functionalities for thermal shock technologies with pulsed infrared. In: Freiberger Forschungshefte. 2014. Pp. 1–44.
Rakhimov R.Kh., Saidov M.S. Development of ceramic coatings and application of their infrared radiation. Proceedings of the international conference “Renewable energy sources and solar materials science”. Tashkent, 2005. Pp. 204–211.
Keywords:
pulse tunnel effect, polymerization, efficiency, physical properties, innovative technologies.
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