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Korinteli A. M.
Institute of Service and Entrepreneurship (branch) of the FGBOU VO “Don State Technical University”
Cherunova I. V.
Institute of Service and Entrepreneurship (branch) of the FGBOU VO “Don State Technical University”
DEVELOPMENT OF ELEMENTS OF THE TECHNOLOGY OF CREATION OF THE BIONIC STRUCTURE OF PROTECTIVE CLOTHING MATERIAL AGAINST THE THERMAL EFFECTS OF UNDERWATER WELDING
Korinteli A. M., Cherunova I. V. Development of elements of the technology of creation of the bionic structure of protective clothing material against the thermal effects of underwater welding // Tekhnologii i kachestvo = Technologies & Quality. 2020;3(49): 6–11. (In Russ.) https://doi.org/10.34216/2587-6147-2020-3-49-6-11.
DOI: https://doi.org/10.34216/2587-6147-2020-3-49-6-11
УДК: 687.03
Publish date: 2020-12-23
Annotation: The article is devoted to research and development of technology elements for designing and manufacturing a new polymer material based on heat-resistant silicone with a special surface structure in the form of an ordered relief matrix that simulates a bionic surface (“shark skin”), created on the basis of digital processing of bionic models, providing a barrier against thermally dangerous particles of underwater welding. In order to determine the stability of the developed material to the thermal effects of a short-term open flame, experimental tests were carried out, which made it possible to determine that the damage to the surface of the new silicone material is insignificant. It does not lead to the destruction of the overall thickness of the protective material and further risks for the internal foam heat-protective layer of wetsuits – damage to the surface of the protrusions of the relief matrix (no more than 40 % of the initial parameters). The developed material allows one to increase the protection of the main surface of the clothing material.
Keywords: special clothing, foam materials, heat resistance, underwater welding, silicone, materials science of sewing production, design of diving suits
Literature list: Fomin B. M., Nikolaev S. D., Egorov N. V. Perspektivy vypuska ognezashchitnyh tkanej v Rossii // Tekstil'naya promyshlennost'. – 2011. – № 4.– S. 64–66. Federal'naya sluzhba gosudarstvennoj statistiki : informacionnyj portal. – URL: http:// www.gks.ru (data obrashcheniya: 15.10.2020). American Welding Society : ofic. sajt. – URL: https://www.aws.org (data obrashcheniya: 15.10.2020). Influence of textile parameters on the permeabilityof reinforcement textiles / R. Gunnar, J. Jinhua, D. Carsten [etc.] ; College of Textiles, Donghua University, № 2999, North Renmin Road. – Shanghai, China, 2013. – P. 89–98. Hu J., Tsai H. L. Heat and mass transfer in gas metal arc welding. Part I: The arc // Int. Journal of Heat and Mass Transfer. – 2007. – No 50. – P. 833–846. Korinteli A. M., Lesnikova T. Yu., Sirota E. N. Fiziko-tekhnicheskie harakteristiki materialov dlya zashchitnoj specodezhdy ot vodnoj sredy // Nauchnaya vesna – 2019. – Shahty : ISOiP (filial) DGTU v g. Shahty, 2019. – S. 78–81. Himiya i tekhnologiya sinteticheskogo kauchuka / L. A. Averko-Antonovich, Yu. O. Averko-Antonovich, I. M. Davletbaeva, P. A. Kirpichnikov. – M. : Himiya : KolosS, 2008. – 357 s. Thermal degradation and flammability properties of poly(propylene)-carbon nanotube composites / T. Kashiwagi, E. Grulke, J. Hilding [etc.] // Macromol. Rapid Commun, 2002. – P. 761–765. Sirota E. N., Cherunova I. V., Tihonova N. V. Issledovanie i uchet svojstv vspenennyh materialov odezhdy dlya ekspluatacii v usloviyah vysokogo rastyazheniya // Vestnik Tekhnologicheskogo universiteta. – 2016. – T. 19. – № 18. – S. 85–87. Patent № 2010/0098868 A1 SSHA B06D 3/02 (2006/01). Silikonovaya tkan' i metod : zayavl. 16.10.2008 : opubl. 22.04.2010, Byul. № 12/288,311 / Tao-Ming Tom King. – 2 s. Patent № 5359735A SSHA. Process poverhnostnogo pokrytiya silikona : zayavl. 28.12.1992 : opubl. 01.11.1994 / Greg M. Stokvell. – 10 s. Patent № 4725635 SSHA S08K 5/15. Otdelochnyj material na osnove silikona : zayavl. 12.05.1987 : opubl. 16.02.1988, Byul. № 48,695 / Fumio Okada, Masaki Tanaka, Hiroshi Ohashi. – 6 s. Patent № 4478895 SSHA B05D 3/02. Sposob polucheniya tkani s silikonovym elastomernym pokrytiem : zayavl. 21.01.1984 : opubl. 23.10.1984, Byul. № 573 / Ruico Makami, Akito Nakamura. – 6 s. Dean B., Bhushan B. Shark-skin surfaces for fluid-drag reduction in turbulent flow a review / Phil. Trans. R. Soc. A 368, 2010. – P. 4775–4806. Dick G. Rubber technology: compounding and Testing // Saint Petersburg: Scientific foundations and technologies, 2010. – URL: https://new.ibooks.ru/bookshelf/335576/reading. Autodesk : informacionnyj portal. – URL: https://www.autodesk.com/products/fusion-360/overview (data obrashcheniya: 13.10.2020). Kmt-stanki : informacionnyj portal. – URL: https://kmt-stanki.ru/catalog/frezernyetanki (data obrashcheniya: 15.10.2020). Mach3 : informacionnyj portal. – URL: https://ntma.com.ua/ru/mach3.html (data obrashcheniya: 15.10.2020). Kabanov V. A. Enciklopediya polimerov . – M. : Sovetskaya enciklopediya, 1977. – T. 3. P–Ya. – 1152 s. GOST 50810–95. Pozharnaya bezopasnost' tekstil'nyh materialov. Tkani dekorativnye. Metod ispytaniya na vosplamenyaemost' i klassifikaciya. – Vved. 1996-01-01. – M. : Izd-vo standartov, 1995. – 9 c. Cherunova I. V. Proektirovanie protivoteplovyh kostyumov : monografiya. – SHahty : Izd-vo Yuzhno-Rossijskogo gos. un-ta ekonomiki i servisa, 2007. – 151 s.
Author's info: Korinteli A. M., Institute of Service and Entrepreneurship (branch) of the FGBOU VO “Don State Technical University”, Shakhty, Rostov Region E-mail: hitarova2015@yandex.ru
Co-author's info: Cherunova I. V., Institute of Service and Entrepreneurship (branch) of the FGBOU VO “Don State Technical University”, Shakhty, Rostov Region E-mail: i_sch@mail.ru