DOI: 10.18503/1995-2732-2026-24-1-192-200
Abstract
Problem Statement (Relevance). The issues of transition to import substitution and achievement of technological leadership have been aggravated by the issue of development and implementation of technological innovations in knowledge-intensive sectors of industry. This has become the basis for development of systemic technological innovations at knowledge-intensive enterprises including those manufacturing ceramic products. This problem is especially relevant with low or medium technological effectiveness with a significant degree of participation of highly qualified human resources, where innovation activity is a key factor in increasing competitiveness and ensuring sustainable economic growth. Objectives. The study is aimed at developing a methodology for assessing the effectiveness of technological innovations that will improve the process of manufacturing ceramic products. Methods Applied. The paper uses a methodology for estimating conditional production and economic efficiency based on calculating the coefficient of probable losses and comparing the technical result obtained with the costs of achieving it. Novelty. A comprehensive approach to the innovative development of high-tech production is proposed, including four areas of modernization: optimization of the input control of components with horizontal integration into the structure of the workshop; improved technology for preparing sealant using a dissolver under vacuum conditions; an implemented method of visual-optical non-destructive testing; implemented automated management software package for process control. The novelty of the developed solutions is confirmed by the receipt of six patents for inventions of the Russian Federation. Result. The use of an innovative approach has made it possible to significantly reduce the level of technological losses, improve the quality and reliability of manufactured products, optimize the use of resources and ensure stable fulfillment of contractual obligations. Practical Relevance. The developed methodology can be adapted to assess the effectiveness of technological innovations in other industries. A comprehensive approach to solving production problems, combining technological innovations with organizational and management solutions, ensures high profitability of innovation projects, which is especially relevant in the context of limited financial resources of enterprises in the mechanical engineering industry.
Keywords
technological innovations, conditional production and economic efficiency, high-tech products, optimization of the input control of components, improved technology for the preparation of sealants, visual-optical control, automated management software package
For citation
Amosov A.I., Kudryavtseva S.S., Kharitonov D.V. Assessment of the Efficiency of Technological Innovations at the Production Stage of the High-Tech Products Life Cycle. Vestnik Magnitogorskogo Gosudarstvennogo Tekhnicheskogo Universiteta im. G.I. Nosova [Vestnik of Nosov Magnitogorsk State Technical University]. 2026, vol. 24, no. 1, pp. 192-200. https://doi.org/10.18503/1995-2732-2026-24-1-192-200
1. Mindlin Yu.B. The present and future of the development of science-intensive production in the Russian Federation. Sovremennaya nauka: aktualnye problemy teorii i praktiki. Seriya: Ekonomika i pravo [Modern Science: Current issues of theory and practice. Series: Economics and Law]. 2021;(3):35-40. (In Russ.)
2. Shinkevich A.I., Barsegyan N.V. Features of innovative development of high-tech sectors in Russia. Intellektualniy gorod: ustoychivost, upravlenie, arkhitektura, renovatsiya, tekhnologii: Sbornik trudov Mezhdunarodnoy nauchno-prakticheskoy konferentsii [Intelligent City: Sustainability, Management, Architecture, Renovation, Technologies. Proceedings of the International Scientific and Practical Conference]. Kazan: KGASU, 2018;60-64. (In Russ.).
3. Kudryavtseva S.S., Khaliulin R.A. Process approach in industrial enterprise management: tools of Industry 4.0. Kompetentnost [Competency]. 2022;(6):36-41. (In Russ.).
4. Dzenzelyuk N.S., Baev L.A., Kamalova A.S., Korolenko A.N., Novosad V.M. Lean production as an adaptation tool for value-based project management of economic development: theory and practice. Upravlenie riskom [Risk Management]. 2024;(4(112)):28-41. (In Russ.).
5. Pytev N.N. Lean production: counterintuitive approaches to improving operational efficiency. Liderstvo i menedzhment [Leadership and Management]. 2025;12(5):1091-1108. (In Russ.).
6. Kulchitskiy A.A., Nikolaev M.Yu., Brigadnov I.A., Rusinov L.A. Optical inspection of damage to load-bearing ropes in metallurgical process equipment. Inzhenernyy vestnik Dona [Engineering Bulletin of the Don]. 2025; (3(123)):133-153. (In Russ.).
7. Rubtsov Yu.V., Malyshev V.E., Nazarenko A.A. Automated visual quality control of microelectronics products using template matching. Radioelektronnaya otrasl: problemy i ikh resheniya [Radioelectronic Industry: Problems and Their Solutions]. 2024;(13):18-21. (In Russ.).
8. Kharitonov D.V., Terekhin A.V., Amosov A.I. et al. Sposob vizualno-opticheskogo kontrolya poverkhnosti [Method of visual-optical surface inspection]. Patent RU, no. 2746674, C1, 2021.
9. Ahmad A., Lyapuntsova E.V. Visual inspection in a software and hardware complex for automating embedded microprocessor systems. Izvestiya Tulskogo gosudarstvennogo universiteta. Tekhnicheskie nauki [Proceedings of Tula State University. Technical Sciences]. 2024;(9):179-184. (In Russ.).
10. Kharitonov D.V., Groshev A.V., Anashkina A.A., Rusin M.Yu., Khamniev A.S. Programmno-apparatniy upravlencheskiy kompleks, integrirovanniy v proizvodstvo keramicheskih izdeliy [Software and hardware management complex integrated into ceramic products production]. Patent RU, no. 2699330, 2018.