Problems and Prospects of Production of New Generation Textiles
( Pp. 147-151)
More about authors
Andrei M. Kushnir
Dr. Sci. (Econ.), Professor, Professor, Department of Mass Communication and Media Business, Professor, Department of Economics and Management, Professor of the Department of Customs Law and Organization of Customs Affairs Law Institute
Financial University under the Government of the Russian Federation; A. N. Kosygin Russian State University (Technology. Design. Art); Russian University of Transport (RUT-MIIT)
Moscow, Russian Federation; Moscow, Russian Federation; Moscow, Russian Federation
Financial University under the Government of the Russian Federation; A. N. Kosygin Russian State University (Technology. Design. Art); Russian University of Transport (RUT-MIIT)
Moscow, Russian Federation; Moscow, Russian Federation; Moscow, Russian Federation
Abstract:
The purpose of the study is to conduct a systematic analysis of the problems and prospects of the textile industry in the production of new generation textiles. The paper argues the following conclusions. New generation fabrics influence the development of the textile industry by utilizing the achievements of biology, electronics, engineering, chemistry and physics. They meet modern requirements for functionality and versatility, use intelligent sensors, adaptive materials and components. It is established that the main problems associated with the life cycle of new textiles are high cost; limited opportunities for use in mass production and customer satisfaction; compliance with operational and information security requirements; negative environmental impact and relative short lifespan. It is shown that in the coming years we should expect significant growth in the markets of smart textiles, clothing that generates energy and fashion products integrated with artificial intelligence; widespread adoption of the above technologies not only in niche segments, but also in the mass-market. This will significantly change the textile business, which is on the threshold of great changes.
How to Cite:
Kushnir A. M. Problems and Prospects of Production of New Generation Textiles // ECONOMIC PROBLEMS AND LEGAL PRACTICE. 2024. Vol. 20. № 6. P. 147-151. (in Russ.) DOI: 10.33693/2541-8025-2024-20-6-147-151. EDN: FSMKVZ
Reference list:
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Oborin M.S., Savel'ev I.I. Development of the textile industry on the basis of «smart» technologies // Izvestiya vysokikh uchebnykh obrazovaniya. Technology of textile industry. 2023. № 1. Pp. 179–184. (403) https://doi.org/10.47367/0021-3497_2023_1_179.
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Shchigorec N. A., Rybaulina I. V. Innovative materials. Smart textile // Izvestiya vysshee obrazovaniya vysshee obrazovaniya. Technology of textile industry. 2024. № 4 (412). Pp. 21–28. https://doi.org/10.47367/0021-3497_2024_4_21.
Chen Y. et al. 3D printed stretchable smart fibers and textiles for self-powered e-skin // Nano Energy. 2021. 84, 105866 https://doi.org/10.1016/j.nanoen.2021.105866.
Fouda A., et al. Nanotechnology and smart textiles: Sustainable developments of applications // Front. Bioeng. Biotechnol. 2022. 10, p. 1002887 https://doi.org/10.3389/fbioe.2022.1002887.
Hossain M.T., et al. Techniques, applications, and challenges in textiles for a sustainable future // Journal of Open Innovation: Technology, Market, and Complexity. 2024. Volume 10, Issue 1, 100230 https://doi.org/10.1016/j.joitmc.2024.100230.
Hossain M.T., Shahid M.A., and Ali A.J.O. Development of nanofibrous membrane from recycled polyethene terephthalate bottle by electrospinning // Open Nano. Volume 8. 2022. November-December. 100089. https://doi.org/10.1016/j.onano.2022.100089.
Kannan D. Role of multiple stakeholders and the critical success factor theory for the sustainable supplier selection process // International Journal of Production Economics. 2018. 195, р. 391-418. https://doi.org/10.1016/j.ijpe.2017.02.020.
Korger M., et al. Possible Applications of 3D Printing Technology on Textile Substrates // IOP Conf. Ser.: Mater. Sci. Eng., 141 (2016) https://doi.org/10.1088/1757-899X/141/1/012011.
Lopez-Camacho et al. Preliminary Study of the Bactericide Properties of Biodegradable Polymers (PLA) with Metal Additives for 3D Printing Applications // Bioengineering. 2023. 10 (3). p. 297. https://doi.org/10.3390/bioengineering10030297.
Manaia et al. Revolutionising textile manufacturing: a comprehensive review on 3D and 4D printing technologies. Fash. Text., 10 (1) (2023), p. 20. https://doi.org/10.1186/s40691-023-00339-7.
Xiong et al., 2021 Functional fibers and fabrics for soft robotics, wearables, and human-robot interface // Adv. Mater. 2021. 33 (19). 2002640 https://doi.org/10.1002/adma.202002640.
Yang D., Moody L. Challenges and opportunities for use of smart materials in designing assistive technology products with, and for older adults // Fash. Pract. 2022. 14 (2), pp. 242–265 https://doi.org/10.1080/17569370.2021.1938823.
Kashcheev O.V. Production of materials with specified properties—a driver of development of technical textiles in Russia // Izvestiya vysokikh uchebnykh obrazovaniya. Technology of textile industry. 2023. № 4 (406). Pp. 128–134.
Oborin M.S., Savel'ev I.I. Development of the textile industry on the basis of «smart» technologies // Izvestiya vysokikh uchebnykh obrazovaniya. Technology of textile industry. 2023. № 1. Pp. 179–184. (403) https://doi.org/10.47367/0021-3497_2023_1_179.
Strachkova E.G., Puryskina V.A. Features and prospects of development of the textile production market // Design and Technology. 2019. № 71 (113). Pp. 95-106.
Shchigorec N. A., Rybaulina I. V. Innovative materials. Smart textile // Izvestiya vysshee obrazovaniya vysshee obrazovaniya. Technology of textile industry. 2024. № 4 (412). Pp. 21–28. https://doi.org/10.47367/0021-3497_2024_4_21.
Chen Y. et al. 3D printed stretchable smart fibers and textiles for self-powered e-skin // Nano Energy. 2021. 84, 105866 https://doi.org/10.1016/j.nanoen.2021.105866.
Fouda A., et al. Nanotechnology and smart textiles: Sustainable developments of applications // Front. Bioeng. Biotechnol. 2022. 10, p. 1002887 https://doi.org/10.3389/fbioe.2022.1002887.
Hossain M.T., et al. Techniques, applications, and challenges in textiles for a sustainable future // Journal of Open Innovation: Technology, Market, and Complexity. 2024. Volume 10, Issue 1, 100230 https://doi.org/10.1016/j.joitmc.2024.100230.
Hossain M.T., Shahid M.A., and Ali A.J.O. Development of nanofibrous membrane from recycled polyethene terephthalate bottle by electrospinning // Open Nano. Volume 8. 2022. November-December. 100089. https://doi.org/10.1016/j.onano.2022.100089.
Kannan D. Role of multiple stakeholders and the critical success factor theory for the sustainable supplier selection process // International Journal of Production Economics. 2018. 195, р. 391-418. https://doi.org/10.1016/j.ijpe.2017.02.020.
Korger M., et al. Possible Applications of 3D Printing Technology on Textile Substrates // IOP Conf. Ser.: Mater. Sci. Eng., 141 (2016) https://doi.org/10.1088/1757-899X/141/1/012011.
Lopez-Camacho et al. Preliminary Study of the Bactericide Properties of Biodegradable Polymers (PLA) with Metal Additives for 3D Printing Applications // Bioengineering. 2023. 10 (3). p. 297. https://doi.org/10.3390/bioengineering10030297.
Manaia et al. Revolutionising textile manufacturing: a comprehensive review on 3D and 4D printing technologies. Fash. Text., 10 (1) (2023), p. 20. https://doi.org/10.1186/s40691-023-00339-7.
Xiong et al., 2021 Functional fibers and fabrics for soft robotics, wearables, and human-robot interface // Adv. Mater. 2021. 33 (19). 2002640 https://doi.org/10.1002/adma.202002640.
Yang D., Moody L. Challenges and opportunities for use of smart materials in designing assistive technology products with, and for older adults // Fash. Pract. 2022. 14 (2), pp. 242–265 https://doi.org/10.1080/17569370.2021.1938823.
Keywords:
textile industry, new generation textiles, nanotechnology, artificial intelligence, mass production, sustainability..
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