A methodology of automated research of the impact of high-frequency Electrothermy on heteropolar polymers used in transport engineering

Receipt date: 
19.02.2020
Bibliographic description of the article: 

Filippenko N.G. Metodologiya avtomatizirovannogo issledovaniya vozdeistviya vysokochastotnoi elektrotermii na raznopolyarnye polimery, ispol'zuemye v transportnom mashinostroenii [A methodology of automated research of the impact of high-frequency electrothermy on heteropolar polymers used in transport engineering]. Sovremennye tekhnologii. Sistemnyi analiz. Modelirovanie [Modern Technologies. System Analysis. Modeling], 2020, Vol. 66, No. 2, pp. 52–60. DOI: 10.26731/1813-9108.2020.2(66).52-60

Year: 
2020
Journal number: 
УДК: 
62-523.6
DOI: 

10.26731/1813-9108.2020.2(66).52-60

Article File: 
Pages: 
52
60
Abstract: 

Based on generalized data, this paper analyzes previously created automated systems of scientific researches of high-frequency electrothermy and justifies a new principle of building automated systems of scientific research, which allows solving the problems of determining the parameters of heat exchange, electrophysical parameters and phase transformations in polymer and composite materials when they are exposed to the high-frequency field in real time. The developed methodology eliminates the need for collecting and processing a large amount of data, which is typical for standard methods for determining the characteristics and parameters of polymers and composite materials. The combined measurement error is not generated, and the initial values of the measured parameters are protected from disturbing influences. A methodology of a new (universal) class of automatic systems of scientific researches of high-frequency electrothermy has been constructed. Based on the “knowledge bank” developed and integrated into it and the algorithm of its use, researchers can quickly determine the direction of building both universal and highly specialized research systems in various areas of high-frequency field effects on polymer and composite materials. The author-developed methodology of a new (universal) class of automatic systems of scientific researches of the high-frequency electrothermy is based on a set of interrelated and interconnected elements. It allowed building the architecture of the “knowledge bank” that provides the possibility of data abstraction. This makes it possible not only to use the “knowledge bank”, but also to promptly maintain its independence and handle the database by various groups of users. The methodology proposed by the author provides us an opportunity to determine the line of work of a scientist in the field of his research on the topic of electrothermal effects of the high-frequency field on polymer and composite materials.

List of references: 
  1. Karl-Heinz J. IEC 61131-3: Programming Industrial Automation Systems. Сoncepts and Programming Languages, Requirements for Programming Systems, Decision-Making Tools. Springer-Verlag Berlin Heidelberg, 2001.
  2. Filippenko N.G., Livshits A.V., Mashovich A.Ya., Kargapol'tsev S.K. Blok avtomatizatsii ustroistva vysokochastotnoi termoobrabotki polimernykh materialov. [The automation unit for high-frequency heat treatment of polymer materials]. Patent RF No. 118916, IPC B29C 65/04. Applied Oct 21, 2011.
  3. Volin M.L. Parazitnye svyazi i navodki. Izdanie vtoroe ispravlennoe i dopolnennoe. [Spurious communications and interference. Second edition, corrected and supplemented]. Sovetskoe Radio Publ., 1965.
  4. GOST 15150-69. Mashiny, pribory i drugie tekhnicheskie izdeliya. Ispolneniya dlya razlichnykh klimaticheskikh rayonov. Kategorii, usloviya ekspluatatsii, khraneniya i transportirovaniya v chasti vozdeystviya klimaticheskikh faktorov vneshnei sredy [GOST 15150-69. Machines, devices and other technical products. Versions for different climatic regions. Categories, operating conditions, storage and transportation regarding the impact of climatic environmental factors]. Izd-vo standartov Publ., 1969.
  5. GOST 22372-77. Materialy dielektricheskie. Metod opredeleniya dielektricheskoi pronitsaemosti i tangensa ugla dielektricheskikh poter' v diapazone chastot ot 100 do 5·10(6) Gts [GOST 22372-77. Dielectric materials. The method for determining the dielectric constant and the dielectric loss tangent in the frequency range from 100 to 5 · 10 (6) Hz]. Izd-vo standartov Publ., 1977, 52 p.
  6. GOST 22372-77. Materialy dielektricheskie. Metody opredeleniya dielektricheskoi pronitsaemosti i tangensa ugla dielektricheskikh poter' [GOST 22372-77. Dielectric materials. Methods for determining the dielectric constant and dielectric loss tangent]. Izd-vo standartov Publ., 1977, 9 p.
  7. GOST R 8.623-2015. GSI. Otnositel'naya dielektricheskaya pronitsaemost' i tangens ugla dielektriche-skikh poter' tverdykh dielektrikov. Metodiki izmerenii v diapazone sverkhvysokikh chastot, otrasle-vym standartam (OST) i attestovannym metodikam izmereniya ε i tanδ [GOST R 8.623-2015. GSI. Relative permittivity and dielectric loss tangent of solid dielectrics. Measurement procedures in the ultra high frequency range, industry standards (OST) and certified methods for measuring ε and tanδ]. Izd-vo standartov Publ., 2015, 68 p.
  8. Denisenko V. Zashchita ot pomekh datchikov i soedinitel'nykh provodov sistem promyshlennoi avtomatizatsii [Protection against interference from sensors and connecting wires of industrial automation systems]. Sovremennye tekhnologii avtomatizatsii [Modern automation technologies], 2001, No. 1 [Electronic media]. URL: http://www.cta.ru/cms/f/366703.pdf.
  9. Larchenko A.G. Sistema avtomatizirovannogo upravleniya vysokochastotnym diagnostirovaniem pri proizvodstve i ekspluatatsii izdelii iz polimernykh materialov: dis. … kand. tekh. nauk [Automated control system for high-frequency diagnostics in the production and operation of products from polymeric materials: Ph.D. (Engineering) diss.]. 05.13.06. Irkutsk, 2014, 164 p.
  10. Livshits A.V. Avtomatizirovannoe upravlenie tekhnologicheskimi protsessami vysokochastotnoi elektrotermii polimerov: dis. … dok. tekh. Nauk [Automated process control of high-frequency electrothermal polymers: Ph.D. (Engineering) diss.], 05.13.06. Irkutsk, 2016, 351 p.
  11. Malykhina M.P. Bazy dannykh: osnovy, proektirovanie, ispol'zovanie [Databases: fundamentals, design, use]. St.Petersburg: BKhV-Peterburg Publ., 2006, 528 p.
  12. Minaev I.G., Samoilenko V.V. Programmiruyemye logicheskie kontrollery. [Programmable Logic Controllers]. Stavropol': ARGUS Publ., 2009, 100 p.
  13. Park Dzh. Peredacha dannykh v sistemakh kontrolya i upravleniya: prakticheskoe rukovodstvo [Data transfer in control systems: a practical guide]. Moscow: Gruppa IDT OOO Publ., 2007, 480 p.
  14. Filippenko N.G., Butorin D.V., Livshits A.V. Kompleksirovannyi metod avtomatizirovannogo vysokochastotnogo kontrolya fazovykh prevrashchenii v polimernykh materialakh [An integrated method of automated high-frequency control of phase transformations in polymeric materials]. Pribory i sistemy. Upravle-nie, kontrol', diagnostika [Devices and Systems. Management, control, diagnostics], 2016, No. 10, pp. 10–18.
  15. Petrov I.V. Programmiruemye kontrollery. Standartnye yazyki i priemy prikladnogo programmirovaniya [Programmable Controllers. Standard languages and techniques of applied programming]. SOLON-Press Publ., 2004, 246 p.
  16. Primenenie polimerov v mashinostroenii [The use of polymers in mechanical engineering] [Electronic media]. URL: https://mplast.by/encyklopedia/primenenie-polimerov-v-mashinostroenii/. Accessed … .
  17. Rumynskii S.N. Avtomatizirovannaya sistema upravleniya protsessom vysokochastotnoi svarki izdelii iz poliamida: dis. … kan. tekh. nauk [Automated control system for the process of high-frequency welding of products made of polyamide:  Ph.D. (Engineering) diss]. 05.13.06; St. Petersburg, 2005, 133 p.
  18. Koritskii Yu.V. Spravochnik po elektrotekhnicheskim materialam: v 3 t. T. 1 [The handbook of electrical materials: in 3 vols, Vol. 1]. Energiya Publ., 1974, 583 p.
  19. Trofimov N.V. Upravlenie rezhimom vysokochastotnoi svarki izdelii iz plastmass slozhnoi formy: dis. … kan. tekh. nauk. [Control of high-frequency welding of plastic products of complex shape: Ph.D. (Engineering) diss]. 05.13.06. St. Petersburg, 2011, 112 p.
  20. Uil'son K. Razrabotka graficheskikh pol'zovatel'skikh interfeysov dlya ASUTP [Development of graphical user interfaces for process control systems]. ASU TP [APCS] [Electronic media]. URL: http://asutp.ru/?p=600212. Accessed … .
  21. Larchenko A.G., Filippenko N.G., Livshits A.V. Mathematical modeling of the technological process of improving the quality of polymeric products of machine-building. Sibirskii nauchno-tekhnicheskii zhurnal [Siberian Scientific and Technical Journal], 2019, No. 20, pp. 106–111.
  22. Filippenko N.G. Avtomatizatsiya upravleniya protsessom vysokochastotnoi obrabotki polimernykh materialov: dis. … kan. tekh. nauk [Automation of process control of high-frequency processing of polymer materials: Ph.D. (Engineering) diss.], 05.13.06. Irkutsk, 2012, 116 p.
  23. Filippenko N.G., Butorin D.V., Livshits A.V. Avtomatizatsiya protsessa kontrolya fazovykh i relaksatsionnykh prevrashchenii v polimernykh materialakh. [Automation of the process of monitoring phase and relaxation transformations in polymeric materials]. Informatsionnye sistemy i tekhnologii [Information Systems and Technologies], 2017, No. 1 (99), pp. 44–53.
  24. Larchenko A.G. Otsenka kachestva izdelii iz polimernykh materialov mashinostroitel'nogo naznacheniya [Evaluation of the quality of products from polymeric materials for engineering purposes]. Vestnik Irkutskogo gosudarstvennogo tekhnicheskogo universiteta [Proceedings of Irkutsk State Technical University], 2019, Vol. 23, No. 3, pp. 463–471.
  25. Farzaliev E.F., Larchenko A.G., Gramakov D.S., Bakanin D.V. Tekhnologiya avtomatizatsii protsessov VCH-sushki mnogokomponentnykh polimernykh i kompozitsionnykh materialov [Technology for the automation of high-frequency drying processes of multicomponent polymeric and composite materials]. Molodaya nauka Sibiri [Young science of Siberia], 2019, No. 4 (6), pp. 31–38.
  26. Larchenko A.G. Sistema avtomatizirovannogo upravleniya vysokochastotnym diagnostirovaniem izdelii iz polimernykh materialov [Automated control system for high-frequency diagnosis of products from polymeric materials]. Avtomatizatsiya. Sovremennye tekhnologii [Automation. Modern technologies], 2015, No. 8, pp. 3–8.
  27. Larchenko A.G. Avtomatizirovannoe ustroistvo diagnostirovaniya polimernykh izdelii slozhnoi konfiguratsii metodom vysokochastotnogo izlucheniya [Automated device for diagnosing polymeric products of complex configuration by the method of high-frequency radiation]. Kontrol'. Diagnostika [Control. Diagnostics], 2016, No. 2, pp. 61–65.