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Purpose: The main aim of the paper is to identify, evaluate and improve the factors that are responsible for the reliable operation of the guttering system using the Failure Mode and Effects Analysis (FMEA) methodology. Design/methodology/approach: To achieve the planned goal, the FMEA method was used. This is one of the suitable techniques of reliability modelling used to investigate the failure behaviour of a products and processes. The article presents the use of design FMEA on the example of a guttering system that is produced in one of the companies in the Podkarpackie province. In order to do this, potential defects and their effects have been identified. Later, the control methods used in the company were specified. The frequency of potential defects was then estimated, as well as their significance and possibility of detection. Findings: The design FMEA method allowed the authors to reveal defects, including critical defects, which may significantly affect the construction of a guttering system. The defects and their root causes were identified, and a proposal for corrective and preventive actions was suggested. Originality/value: An original solution of a guttering system that is currently in production in the Podkarpackie province was tested. This analysis should contribute to improving the quality of products manufactured here.
Słowa kluczowe
Rocznik
Tom
Strony
129--140
Opis fizyczny
Bibliogr. 13 poz.
Twórcy
autor
- Rzeszow University of Technology. Faculty of Mechanical Engineering and Aeronautics
autor
- War Studies University. Faculty of Management and Command
autor
- Rzeszow University of Technology. Faculty of Mechanical Engineering and Aeronautics
Bibliografia
- 1. Blong, R. (2004). Residential building damage and natural perils: Australian examples and issues. Building Research and Information, Vol. 32(5), 379-390, doi: 10.1080/ 0961321042000221007.
- 2. Florczak, P. (2014). Metalowe systemy rynnowe. Inżynier budownictwa. Retrieved from: http://www.inzynierbudownictwa.pl/technika,materialy_i_technologie,artykul,metalowe_systemy_rynnowe,7661, 18.04.2020.
- 3. Folejewska, A. (2010). Analiza FMEA – zasady, komentarze, arkusze. Warszawa: Wydawnictwo Verlag Dashofer Sp. z o.o.
- 4. Greber, T. (2017). Analiza FMEA. Kompendium wiedzy praktycznej (materiały pomocnicze do warsztatów FMEA). Wrocław: PROQUAL Management Institute.
- 5. Hąbek, P. (2017). The concept of using FMEA method for the purpose of sustainable manufacturing. Systemy Wspomagania w Inżynierii Produkcji, Vol. 6(4), 49-55. Retrieved from: http://wydawnictwo.panova.pl/attachments/article/598/R6.pdf, 18.04.2020.
- 6. Półtorak, M. (2010). Wybór systemu rynnowego. Inżynier budownictwa. Retrieved from: http://www.inzynierbudownictwa.pl/technika,materialy_i_technologie,artykul,wybor_systemu_rynnowego,4082, 18.04.2020.
- 7. Rusecki, A. (2018). Praktyczne zastosowanie metody FMEA na przykładzie produkcji koła pasowego w wybranym przedsiębiorstwie. Quality Production Improvement, Vol. 1(8), 7-18. Retrieved from: https://www.qpi-journal.pl/EN/files/2018_8_01.pdf, 18.04.2020.
- 8. Rynni – Gutter System. Available online http://rynni.pl/en/gutter-system.html, 18.04.2020.
- 9. Sankar, R.N., Prabhu, B.S. (2001). Modified approach for prioritization of failures in a system failure mode and effects analysis. International Journal of Quality & Reliability Management, Vol. 18(3), 324-336. doi: 10.1108/02656710110383737.
- 10. Spekkers, M.H., Clemens, F., ten Veldhuis, J.A. (2015). On the occurrence of rainstorm damage based on home insurance and weather data. Natural Hazards and Earth System Sciences, Vol. 15, 261-272, doi: 10.5194/nhess-15-261-2015.
- 11. Tavukcuoglu, A., Duzgunes, A., Demirci, S., Caner-Saltık, E.N. (2007). The assessment of a roof drainage system for an historical building. Building and Environment. Vol. 42(7), 2699-2709. doi: 10.1016/j.buildenv.2006.07.012.
- 12. van Leeuwen, J.F., Nauta, M.J., de Kaste, D., Odekerken-Rombouts, Y.M.C.F., Oldenhof, M.T., Vredenbregt, M.J., Barends, D.M. (2009). Risk analysis by FMEA as an element of analytical validation. Journal of Pharmaceutical and Biomedical Analysis, Vol. 50(5), 1085-1087. doi: 10.1016/j.jpba.2009.06.049.
- 13. Verstraten, L., Lucke, T., O'Loughlin, G. (2017). Comparing empirical water depth observations of a box gutter roof drainage system to three different international design guidelines. Journal of Building Engineering, Vol. 12, 178-187. doi: 10.1016/ j.jobe.2017.06.004.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-a9503cc4-4362-410a-855a-a66515a2be45