Catalog

Digital Transformation of Technological Support of Production in Small Enterprises

Authors: Bulavin V.F., Bulavina T.G., Koshutin D.V., Yakhrichev V.V., Stepanov A.S.	Published: 16.08.2021
Published in issue: #9(738)/2021
DOI: 10.18698/0536-1044-2021-9-15-29
Category: Mechanical Engineering and Machine Science \| Chapter: Manufacturing Engineering
Keywords: 3D prototype, digital support, technological support of production, information environment, small businesses

Technological transformation involves the integration of medium and small machine-building enterprises into a single field of virtual factories. The integration is based on the strategy of transition to digital production within the framework of national projects and the National Technology Initiative. Divergent thinking is regarded as a driving factor in production and management, which significantly affects all aspects of socio-economic activity. The convergent application of CAD / CAM / CAPP / CAE / CAO ideologies is at the initial stage of use, while individual process components are widely used at all levels of enterprises. The paper considers the development of a group of competencies that ensure the combination of advanced production technologies, as well as their distribution in the field of small and medium-sized machine-building enterprises. The production for markets of new qualities and the development of high-tech directions in the industry lead to the production of globally competitive products. To respond to these trends, deep automation, digitalization, and intellectualization of production processes are required, which implies the combination of material and digital virtual production. A dynamic environment and the challenges it entails need quick and effective decisions to remain competitive in the long term and the ability to accelerate adaptation processes. These total changes are accompanied by the development of fundamentally new business processes at all levels.

References

[1] Tsifrovoe proizvodstvo. Metody, ekosistemy, tekhnologii [Digital production. Methods, ecosystems, technologies]. Moscow, Skolkovo Moscow School of Managemet, 2017. URL: http://assets.fea.ru/uploads/fea/news/2017/11_november/17/tsifrovoe_proizvodstvo_112017.pdf (accessed: 07.12.2020). (in Russ.).

[2] Borovkov A.I., Ryabov Yu.A. [Advanced manufacturing technologies in russia: outlines of a new policy]. Mat. XVII Aprel’skoy mezhd. nauch. konf. po problemam razvitiya ekonomiki i obshchestva. T. 3 [Proc. XVII Int. Sci. Conf. on Problems of Economy and Society Development. Vol. 3]. Moscow, VShE Publ., 2017, pp. 381–389.

[3] Borovkov A., Ryabov Yu. On “Technet” road map (advanced manufacturing technologies) of national technology enterprise. Tramplin k uspekhu, 2017, no. 10, pp. 8–11. (In Russ.).

[4] Schuh G., Anderl R., Gausemeier J., et al. Industrie 4.0 maturity index. Munich, Herbert Utz, 2017.

[5] Xu W., Cooper A., et al. Concomitant digitalization effect. Measuring the real impact of the digital economy. In: Presentation by Huawei and Oxford Economics. 2017. URL: https://www.huawei.com/minisite/gci/en/digital-spillover/files/gci_digital_spillover.pdf (accessed: 07.12.2020).

[6] Bulavin V.F., Yakhrichev V.V., Stepanov A. Policy of digital technologies in small machine-building enterprises. Izvestiya vysshikh uchebnykh zavedeniy. Mashinostroenie [BMSTU Journal of Mechanical Engineering], 2019, no. 9, pp. 35–45, doi: http://dx.doi.org/10.18698/0536-1044-2019-9-35-45 (in Russ.).

[7] Koshutin D.V. Virtual enterprise based on the Lotsman PLM SYSTEM as a multi-agent system. Vestnik Dagestanskogo gosudarstvennogo tekhnicheskogo universiteta. Tekhnicheskie nauki [Herald of Dagestan State Technical University. Technical Sciences], 2020, vol. 47, no. 2, pp. 75–85, doi: https://doi.org/10.21822/2073-6185-2020-47-2-75-85 (in Russ.).

[8] Bulavin V.F., Bulavina T.G., Yakhrichev V.V., et al. Digital format for preparation of instrument production. Part I. Design stage. Izvestiya vysshikh uchebnykh zavedeniy. Priborostroenie [Journal of Instrument Engineering], 2020, vol. 63, no. 3, pp. 242–249, doi: https://doi.org/10.17586/0021-3454-2020-63-3-242-249 (in Russ.).

[9] Bulavin V.F., Bulavina T.G., Yakhrichev V.V., et al. Digital format for preparation of instrument production. Part II. Technological stage. Izvestiya vysshikh uchebnykh zavedeniy. Priborostroenie [Journal of Instrument Engineering], 2020, vol. 63, no. 3, pp. 250–256, doi: https://doi.org/10.17586/0021-3454-2020-63-3-250-256 (in Russ.).

[10] Bulavin V.F., Yakhrichev V.V. Digital technologies in small business of machine building industry. SAPR i grafika, 2018, no. 6, pp. 52–55. (In Russ.).

[11] Bulavin V.F., Bulavina T.G., Yakhrichev V.V. Validation of cad products in small enterprises machinery sector. Fundamental’nye i prikladnye problemy tekhniki i tekhnologii [Fundamental and Applied Problems of Engineering and Technology], 2017, no. 5, pp. 64–72. (In Russ.).

[12] Bulavin V.F., Bulavina T.G., Yakhrichev V.V. [Digital innovations for small entrepreneurship mechanical engineering]. Tsifrovaya ekonomika i industriya 4.0: Forsayt Rossiya. Sb. tr. nauch.-prakt. konf. [Digital Economy and Industry 4.0: Russia Forsite. Proc. Sci.-Tech. Pract. Conf.]. Sankt-Peterburg, Politekh-Press, 2020, pp. 28–40.

[13] Bulavin V.F., Bulavina T.G., Yakhrichev V.V. Engineering analysis and new technologies in the finite element method. Fundamental’nye i prikladnye problemy tekhniki i tekhnologii [Fundamental and Applied Problems of Engineering and Technology], 2018, no. 2, c. 109–120. (In Russ.).

[14] Alyamovskiy A.A. Inzhenernye raschety v Solid Works Simulation [Engineering analysis in Solid Works Simulation]. Moscow, DMK-Press Publ., 2010. 464 p.

[15] Zamriy A.A. Prakticheskiy uchebnyy kurs. CAD/CAE sistema ARM WinMachine [Practical educational course. CAD/CAE ARM WinMachine system]. Moscow, DMK-Press Publ., 2007. 144 p.

[16] Khmelev V.N., Shalunov A.V., Khmelev S.S., et al. Ul’trazvuk. Apparaty i tekhnologii [Ultrasound. Devices and technologies]. Biysk, Biya Publ., 2015. 688 p.

[17] Golykh R.N., Khmelev V.N., Shalunov A.V., et al. Ul’trazvuk. Vozdeystvie na sistemy s nesushchey zhidkoy fazoy [Ultrasound. Impact on systems with liquid carrier phase]. Biysk, Izd-vo AltGTU Publ., 2018. 276 p.

[18] Bulavin V.F., Bulavin V.F., Bulavina T.G., et al. Digital design and technological innovation in the small machine building sector. Conf. Ser.: Mater. Sci. Eng., 2020, vol. 939, art. 012016, doi: https://doi.org/10.1088/1757-899X/939/1/012016

[19] Bulavin V.F., Bulavina T.G., Stepanov A.S. Digital space of small enterprises in engineering. Proc. ICIE 2020. Springer, 2021, pp. 462–468.

[20] Bulavin V.F., Bulavina T.G., Yahrichev V.V., et al. Digital support of production small business preparation in engineering. J. Phys.: Conf. Ser., 2019, vol. 1399, no. 3, art. 033045, doi: https://doi.org/10.1088/1742-6596/1399/3/033045

[21] Shiryaev N. PLM/PDM/ERP: reality and prospects. SAPR i grafika, 2007, no. 12, pp. 16–20.

[22] Lichman A. Integration of PLM and ERP: choice of method. Oborudovanie i instrument dlya professionalov (metalloobrabotka), 2013, no. 3, pp. 84–85.

[23] Babkin A.V., ed. Tsifrovizatsiya ekonomicheskikh sistem: teoriya i praktika [Digitalization of economic systems: theory and practice]. Sankt-Petersburg, Politekh-Press Publ., 2020. 796 p.