Analysis of the Theories for Assessment of the Quality Management Product Efficiency | Journal of Engineering Sciences

Analysis of the Theories for Assessment of the Quality Management Product Efficiency

Author(s): Zaloga V.1, Yashyna T.1*, Dynnyk O.2

Affilation(s):
1 Sumy State University, 2 Rymskogo-Korsakova St., 40007 Sumy, Ukraine;
2 Konotop Institute of Sumy State University, 24 Myru St., 41600 Konotop, Ukraine

*Corresponding Author’s Address: t_yashyna@ukr.net

Issue: Volume 5; Issue 2 (2018)

Dates:
Paper received: June 4, 2018
The final version of the paper received: November 11, 2018
Paper accepted online: November 15, 2018

Citation:
Zaloga V. Analysis of the Theories for Assessment of the Quality Management Product Efficiency / V Zaloga, T. Yashyna, O. Dynnyk // Journal of Engineering Sciences. – Sumy : Sumy State University, 2018. – Volume 5, Issue 2. – P. B1-B6.

DOI: 10.21272/jes.2018.5(2).b1

Research Area: MANUFACTURING ENGINEERING: Technical Regulations and Metrological Support

Abstract. In the article the advantages of introduction and reasons of low efficiency of the quality management system at the machine-building enterprises are determined. The methods and tools of the quality management system are considered. The conducted analysis of publications has made it possible to distinguish areas in which studies are carried out on the implementation and effective use of the quality management system at machine-building enterprises. A comparative analysis of two versions of ISO 9001 standards has been performed. A functional scheme of product quality management has been developed. The work of domestic and foreign authors on the assessment of the effectiveness of the quality management system is considered. The proposed method will allow controlling the quality of products at all stages of theirs production. The application of this method makes it possible to assess the functioning of the processes of the machine-building enterprise to determine the most critical ones in terms of quality, as well as can be used to assess both the basic processes of production and the assessment of elements or operations.

Keywords: quality, quality management system, assessment, efficiency, measuring system.

References:

  1. DSTU ISO 9000:2015, IDT (2016). Quality management systems. Basic Provisions and Dictionary. UkrNDNTS, Kyiv, Ukraine.
  2. DSTU ISO 9001:2015, IDT (2016). Quality management systems. Requirements. UkrNDNTS, Kyiv, Ukraine.
  3. Executive Summary (2017). The ISO Survey of Management System Standard Certifications 2017. Retrieved from: http://www.iso.org/iso/home.html.
  4. Druzyuk, V., & Fedak, O. (2009). Quality Management System – Investing in the Future. Standardization, Certification, Quality, No. 1, pp. 51–54.
  5. Deming, E. (1994). Out of the crisis. Alba Publishing, Tver, Russia.
  6. Lapidus, V. A. (1996). Statistical methods, general quality management, certification, and more. Standards and Quality, No. 4–6.
  7. Product quality (2006). A guide for small and medium sized enterprises. UNIDTO, Vienna, Austria.
  8. Dolgalova, O. V., & Stepanov, A. D. (2017). Product quality management system at the enterprise and development of measures on its improvement. Collection of scientific works of DonNACEA, Vol. 2, No.4, pp. 72–78.
  9. Orlov, P. A. (2013). Implementation of quality management systems: state, problems, perspectives. Standardization, Certification, Quality, No. 6, pp. 59–63.
  10. Boychuk, N. Ya., & Holtobina, O. (2013). Problems and modern state of the system of quality management of products at the enterprises. Modern Problems of Economy and Entrepreneurship, No. 12, pp. 149–155.
  11. 11 Chekmasova, A., & Shatilo, D. M. (2013). Management of the quality of the enterprise: development and implementation problems. Bulletin of NTU KhI, No. 7, pp. 167–173.
  12. Marchenko, T. B. (2007). Methodology for introducing a quality management system in an enterprise. Current Problems of the Economy, No. 12, pp. 152–156.
  13. Prodius, O. I., & Illinchuk, O. I. (2017). Quality management as a factor for increasing the competitiveness of products. Prychornomorah Economic Studies, No. 18, pp. 89–93.
  14. Momot, O. I. (2014). The Possibilities of Using International Standards for the Construction of Integrated Management Systems. Bulletin of the Kiev National University of Technology and Design, No. 5 (37), pp. 133–138.
  15. Filippova, S. V. (2005). Mechanism of formation of integrated production systems as an instrument of preventive management of transformation of industrial production. Development Economics, No. 2 (34), pp. 42–45.
  16. Simkova, T. O., & Kirichenko, A. I. (2016). Trends in the development of quality management systems in Ukraine due to the introduction of world standards. Economy and Society, No. 7, pp. 482–489.
  17. Popova, O. Yu., & Skibenko, G. G. (2014). Quality management as an element of innovative enterprise development. Economics and Management Organization, No. 3 (19) – 4 (20), pp. 194–198.
  18. Shvets, V. Ya., & Ivanov, M. I. (2013). Formation of an Efficient Integrated Quality Management System for Machine Building Economic Bulletin, No. 2, pp. 147–156.
  19. ISO Central Secretariat Chemin de Blandonnet Case Postale 401 (2014). Quality Management Principles. Geneva, Switzerland.
  20. Khimicheva, G. I., & Kalinuk, N. V. (2015). Application of the concept of BSC for assessing the effectiveness and efficiency of the quality management system. Journal of the KNUTD, Metrology and certification, No. 6 (92), pp. 142–149.
  21. Bogachenko, O. P. (2013). Theory and practice of evaluating the effectiveness of using the quality management system: monograph. ZNTU, Zaporizhzhia, Ukraine.
  22. Gorbenko, N. A. (2014). Development of methodology for evaluating quality management systems of enterprises taking into account the requirements of international standards: Ph.D. thesis. Kharkiv, Ukraine.
  23. Gunkalo, A. V. (2007). Development of normative and methodological principles of evaluation of quality management systems: Ph.D. thesis. Ukraine.
  24. Stolyarchuk, P., Baytsar, R., & Gunkalo, A. (2008). Methods for assessing quality management systems. Measuring Technique and Metrology, No. 68, pp. 244–247.
  25. Chaban, O. P. (2009). Development of methods for assessing the quality of products and services by single and aggregate indicators: Ph.D. thesis. Ukraine.
  26. Trysh, G. N. (2013). Development of methodology for evaluating processes of quality management systems of enterprises taking into account the requirements of international standards: Ph.D. thesis. Lviv, Ukraine.
  27. Zubretskaya, N. A. (2013). Development of scientific bases of multicriterion estimation and forecasting of quality of industrial products: Ph.D. thesis. Kyiv, Ukraine.
  28. Tereshchenko, N. V., & Yashin, N. V. (2006). Model of complex evaluation of the effectiveness of the SMK. Methods of estimation and calculation. Methods of Quality Management, No. 4. pp. 38–46.
  29. Olkhovskaya, O. L., & Zayka, A. A. (2017). System of evaluation of the quality management of the organization of the production process at the machine-building enterprise. Economic Bulletin of the Donbas, No. 1 (47), pp. 106–109.
  30. Olkhovskaya, O. L., & Zayka, A. A. (2016). Assessment of the quality management system of the production process. Economic Bulletin of the Donbas, No. 3 (45), pp. 154–157.
  31. Kovalev, A. I. (2018). How to Assess the Performance of an Enterprise. Journal of Engineering Sciences, Vol. 5, Issue 1, pp. B1–B6.
  32. Szczepanska, K., & Urbaniak, M. (2011). Evaluation of Effect of Quality Management System Improvement. Foundations of Management, Vol. 3, No. 1, pp. 97–108.
  33. Ginevicius, R., Petraskevicius, V., & Trishch, H. (2015). Quantitative evaluation of quality management systems processes. Economic Research, Vol. 28, No. 1, pp. 1096–1110.
  34. Application of applied static methods in production of products (2001). Practical Guide. SMC “Priority”, Novgorod, Russia.

Full Text




Scientific journal "The Journal of Engineering Sciences"
ISSN 2312-2498 (Print), ISSN 2414-9381 (Online).

Faculty of Technical Systems and Energy Efficient Technologies
Sumy State University