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In the paper the effect of selected technological parameters of shot peening on process intensity of 51CrV4 steel was presented. The experiments were conducted according to statistical 3-level completed plan PS/DC 32. Technological parameters were changed in the range: shot peening time t = 1-3 min and pressure p = 0.2-0.4 MPa. In the article the analysis of experiment reproducibility, impact parameters significance and adequacy of equation were done. As the result of investigations the adequate equation was obtained describing the effect of technological parameters. Significant influence on process intensity was found in case of pressure and interaction of both analyzed technological parameters. The biggest energy of stream shots was gained at the maximum pressure of 0.4 MPa and the shot peening time of 3 minutes. As the result of analysis according to design of experiment (DOE) the adequate equation describing the dependencies between technological parameters and process intensity was found.
Czasopismo
Rocznik
Tom
Strony
213--217
Opis fizyczny
Bibliogr. 22 poz., rys., tab., wykr.
Twórcy
autor
- Faculty of Mechanical Engineering and Aeronautics, Department of Manufacturing Processes and Production Engineering, Rzeszow University of Technology, Powstańców Warszawy 8, 35-959 Rzeszów, Poland
autor
- Faculty of Mechanical Engineering and Aeronautics, Department of Manufacturing Processes and Production Engineering, Rzeszow University of Technology, Powstańców Warszawy 8, 35-959 Rzeszów, Poland
autor
- Faculty of Mechanical Engineering and Aeronautics, Department of Materials Forming and Processing, Rzeszow University of Technology, Powstańców Warszawy 8, 35-959 Rzeszów, Poland
autor
- Faculty of Mechanical Engineering and Aeronautics, Department of Manufacturing Processes and Production Engineering, Rzeszow University of Technology, Powstańców Warszawy 8, 35-959 Rzeszów, Poland
Bibliografia
- 1. Jebahi M., Gakwaya A., Leveskue J., Mechri O., Ba K. (2016), Robust methodology to simulate real shot peening process using discrete-continuum coupling method, International Journal of Mechanical Sciences, 107, 21-33.
- 2. Korzyński M. (2013), Experiment methodology, WNT, Warszawa (in Polish).
- 3. Korzynski M., Dzierwa A., Pacana A., Cwanek J. (2009), Fatigue strenght of chromium coated elements and possibility of its improvement with ball peening, Surface & Coatings Technology, 204, 615-620.
- 4. Korzynski M., Zarski T., Korzynska K. (2011), Surface layer condition and the fatigue strenght of an AZ91 alloy after ball peening, Journal of Materials Processing Technology, 211, 1982-1988.
- 5. Llaneza V., Belzunce F.J. (2015), Study of the effect produced by shot peening on the surface of quenched and tempered steels: roughness, residual stresses and work hardening, Applied Surface Science, 356, 475-485.
- 6. Lundstedt T., Seifert E., Abramo L., Thelin B., Nyström A., Pettersen J., Bergman R. (1998), Experimental design and optimization. Chemometrics and Intelligent Laboratory Systems, 42, 3-40.
- 7. Lv Y., Lei L., Sun L. (2016), Influence of different combined severe shot peening and laser surface melting treatments on the fatigue performance of 20CrMnTi steel gear, Materials Science & Engineering A, 658, 77-85.
- 8. Metal Improvement Company, (2005), Shot peening applications. http://www.metalimprovement.com//premium/PDF/greenbook_v9/eng lish/Chapter%2011.pdf (dostęp: 03 marzec 2015).
- 9. Nakonieczny A. (2002), Surface treatment by dynamic plastic deformation. Shot peening. Instytut Mechaniki Precyzyjnej, Warszawa (in Polish).
- 10. Pietraszek J. (2004), Experiment planning. Opportunity or necessity. http://www.statsoft.pl/Portals/0/Downloads/doe.pdf (in Polish), (dostęp 05 marzec 2015).
- 11. Polański Z. (1984), Experiment planning in technique, PWN, Warszawa (in Polish).
- 12. Skowronek A. (2007), Optimization of elastic experiment plan generativity. Czasopismo Techniczne. Informatyka, Wydawnictwo Politechniki Krakowskiej, 63-74 (in Polish).
- 13. Śledź M., Bąk Ł., Zielecki W. (2014), The effect of shot peening on fatigue strength of selected steel sheets, Publishing House of Rzeszow University of Technology, Monograph: Selected issues and problems in mechanical engineering, Rzeszów, 69-83 (in Polish).
- 14. Śledź M., Stachowicz F., Zielecki W. (2015), The effect of shot peening on the fatigue strength of steel sheets, Metallic Materials, 53, 91-95.
- 15. Śledź, M., Bąk, Ł., Stachowicz, F., Zielecki, W. (2013), Analysis of the effect of shot peening on mechanical properties of steel sheets used as screener sieve materials, Journal of Physics: Conerence Series, 451, 012029.
- 16. Soyama H., Takeo F. (2016), Comparison between cavitation peening and shot peening for extending the fatigue life of a duralumin plate with a hole, Journal of Materials Processing Technology, 227, 80-87.
- 17. Tekeli S. (2002), Enhancement of fatigue strength of SAE 9245 steel by shot peening, Materials Letters, 57, 604-608.
- 18. Torres M. A. S., Voorwald H. J. C. (2002), An evaluation of shot peening, residual stress and stress relaxation on the fatigue life of AISI 4340 steel, International Journal of Fatigue, 24, 877-886.
- 19. Zielecki W. (1987), The effect of shot peening intensity on fatigue strength and surface layer properties of 50HF steel, Zeszyty Naukowe Politechniki Rzeszowskiej, Mechanika, 14, 35-40 (in Polish).
- 20. Zyzak P. (2010), Characteristic of a shot stream in a rotor cleaning machine, Archives of Metallurgy and Materials, 55 (3), 977-984.
- 21. SAE standard J442_201302 (2013) Test Strip, Holder, and Gage for Shot Peening, SAE International.
- 22. SAE standard J443_201006 (2010) Procedures for Using Standard Shot Peening Almen Strip, SAE International.
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-dd1b09d6-7b16-40cc-8919-c81506b723c5