Tytuł artykułu
Treść / Zawartość
Pełne teksty:
Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
Effective quality management of the product is an element that allows profit within the enterprise. Identifying unconformity and establishing their source enables quality. However, identifying unconformity is sometimes neglected. Such was evident in the analysis of the service-manufacturing enterprise located in Podkarpacie. In the enterprise, quality was assessed via non-destructive testing (via fluorescence), but decisions on sources of non-compliance were made without utilizing additional methods that allow source identification. Hence, the way of recognizing unconformity was not precise. Therefore, method sequence (Ishikawa diagram and 5Why method) approaches were proposed to enable this. The aim of this paper is to show the effectiveness of such approaches in identifying sources of unconformity. The subject of study was tubing that is used in aircraft engines. Via the applied analysis, the unconformity in production and the source cause was traced to material supplied from outside. The proposed method sequence approach can be used in other enterprises for quality analyses purposes.
Rocznik
Tom
Strony
169--178
Opis fizyczny
Bibliogr. 34 poz.
Twórcy
autor
- Rzeszow University of Technology, Faculty of Mechanical Engineering and Aeronautics, Rzeszow, Poland
autor
- Rzeszow University of Technology, Faculty of Mechanical Engineering and Aeronautics, Rzeszow, Poland
autor
- Rzeszow University of Technology, Faculty of Mechanical Engineering and Aeronautics, Rzeszow, Poland
autor
- Rzeszow University of Technology, The Faculty of Management, Poland
Bibliografia
- 1. Ahsen, A. (2008). Cost oriented failure mode and effects analysis. International Journal of Quality &Reliability Management, 25.
- 2. Antosz, K., Pacana, A., Stadnicka, D., Zielecki, W. (2015). Lean Manufacturing. Improving production. Rzeszów: Oficyna Wydawnicza Politechniki Rzeszowskiej.
- 3. Bełzowski, A., Rechul, Z. (2005). Structural safety factors from composite materials. Technical Supervisor, 1.
- 4. Bielski, R., Drozd, R. (2016). Improvement of quality control in production equipment processes. Innovations in management and production engineering, II. R. Knosala (ed.). Opole: Polish Society for Production Management.
- 5. Borowiecka, A. (1998). Penetration tests in the aviation industry on the example of PZL. Świdnik SA Materials of the Saminarium “Non-destructive Materials Research”. Zakopane: org. Seminar Laboratory of Ultrasonic Materials Research IPPT PAN and Gamma Office in Warszawa.
- 6. Borowiecka-Wilczyńska, A. (2007). Penetration tests. The repertory. Warszawa: Gamma Office.
- 7. Brzezinski, M. (2002). Organization and control of production. Warszawa: Placet Publishing House.
- 8. Deo, R.B., Starnes, J.H. Jr., Holzwarth, R.C. (2001). Low-Cost Composite Materials and Structures for Aircraft Applications. RTO AVT Specialists’ Meeting on „Low Cost Composite Structures”, Norway, 7-11 May 2001.
- 9. Drummond, H. (1998). In pursuit of quality. Warszawa: Publishing House ABC.
- 10. Fidali, M., Jamrozik, W. (2013). Diagnostic method of welding process based on fused infrared and vision images. Infrared Physics & Technology, 61.
- 11. Gudanowska, A.E. (2010). Introduction to quality management in a production company. Economics and Management, 4.
- 12. Gwiazda, A. (2005). Ishikawa Weighted Graph Concept. Quality Problems, 4.
- 13. Hamrol, A., Mantura, W. (2002). Quality management. Theory and practice. Warszawa: PWN.
- 14. https://weldingwarehouseinc.com/products/magnesium-alloys/ze41/.
- 15. https://www.aircraftmaterials.com/data/magnesium/ze41.html.
- 16. Karaszewski, R. (2005). Quality management - concepts, methods and tools used by global business leaders. Toruń: TNOiK.
- 17. Kolman, R. (1998). Quality Controller's Guide. Bydgoszcz: Ośrodek Postępu Organizacyjnego.
- 18. Kolman, R. (2007). Causes of knowledge about quality: specialist encyclopedia, factography of qualitative changes, development issues. Gdynia: Wydawnictwo Akademii Morskiej.
- 19. Krysztofik, J., Manaj, W. (2011). Application of non-destructive testing in aircraft technology. Warszawa: Prace Instytutu Lotnictwa.
- 20. Ładecki, B., Knysak, Ł. (2018). Non-destructive testing of soldered joints in thin-walled tubes of non-ferromagnetic steel. Badania Nieniszczące i Diagnostyka, 3.
- 21. Lisiecka, K. (2002). Quality creation. Katowice: Wydawnictwo Akademii Ekonomicznej.
- 22. Lovejoy, D. (1991). Penetrant testing. A practical guide. London-New York-Tokyo-Melbourne-Madras: Chapman & Hall.
- 23. Łunarski, J. (2012). Quality management. Standards and rules. Warszawa: WNT.
- 24. Mackiewicz, S., Góra, G. (2005), Ultrasonic testing of composite structures in the aerospace industry. Jedenaste Seminarium Nieniszczące Badania Materiałów, Zakopane.
- 25. Makowska, K., Kowalewski, Z.L. (2015). New possibilities of application of ultrasonic parameters for evaluation of mechanical properties of materials. Transport Samochodowy, 4.
- 26. Onoszko, K. (2012). Methods used for non-destructive testing. Informatyka, Automatyka, Pomiary w Gospodarce i Ochronie Środowiska. Politechnika Lubelska.
- 27. Pacana, A. (2017). Teamwork and leaders. Rzeszów: Oficyna Wydawnicza Politechniki Rzeszowskiej.
- 28. PN-EN ISO 22000:2006 (2006). System zarządzania bezpieczeństwem żywności. Warszawa: PKN.
- 29. Sęp, J., Perłowski, R., Pacana, A. (2006). Quality management support techniques. Rzeszów: Oficyna Wydawnicza Politechniki Rzeszowskiej.
- 30. Sikora, R., Chady, T. (2016). Non-destructive testing with electromagnetic methods. Electrotechnical inspection. Wydawnictwo Sigma-Not.
- 31. Urbaniak, M. (2004). Quality management. Theory and practice. Warszawa: Difin.
- 32. Vogt, P., Kujawińska, A. (2013). Analysis of the influence of selected work factors on the effectiveness of visual inspection. Inżynieria Maszyn, 18, 1.
- 33. Wolniak, R. (2013). Lean Production methods and tools and their role in shaping innovation in industry. In R. Knosala (ed.), Innowacje w zarządzaniu i inżynierii produkcji. Opole: Oficyna Wydawnicza PTZP.
- 34. Zientek, P. (2016). Non-destructive testing methods for selected components of the low-power turbine set structure. Maszyny Elektryczne - Zeszyty Problemowe, 3. Gliwice: Politechnika Śląska.
Uwagi
PL
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-3ccf3300-83d8-496f-8e80-0fce1f5a45e9