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Tytuł artykułu

Study of chip ignition and chip morphology after milling of magnesium alloys

Treść / Zawartość
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The paper analyses the impact of specified technological parameters of milling (vc , fz, ap ) on time to ignition. Stages leading to chip ignition were analysed. Metallographic images of magnesium chip were presented. No significant difference was observed in time to ignition in different chip fractions. Moreover, the surface of chips was free of products of ignition and signs of strong oxidation.
Twórcy
autor
  • Department of Production Engineering, Faculty of Mechanical Engineering, Lublin University of Technology, Nadbystrzycka 36, 20-618 Lublin, Poland
  • Department of Production Engineering, Faculty of Mechanical Engineering, Lublin University of Technology, Nadbystrzycka 36, 20-618 Lublin, Poland
Bibliografia
  • 1. Adamski W. Manufacturing development strategies in aviation industry. Advances In Manufacturing Science and Technology, 34(3), 2010, 73–84.
  • 2. Akyuz B. Machinability of magnesium and its alloys. TOJSAT: The Online Journal of Science and Technology, 1(3), 2011, 31–38.
  • 3. Arai M., Sato S., Ogawa M. and Shikata H.I. Chip Control in Finish Cutting of Magnesium Alloy. Journal of Materials Processing Technology, 62(4), 1996, 341–344.
  • 4. Fang F.Z., Lee L.C. and Liu X.D. Mean Flank Temperature Measurement in High Speed Dry Cutting. Journal of Materials Processing Technology, 167(1), 2005, 119–123.
  • 5. Guo Y.B. and Salahshoor M. Process mechanics and surface integrity by high-speed dry milling of biodegradable magnesium–calcium implant alloys, CIRP Annals - Manufacturing Technology, 59(1), 2010, 151–154.
  • 6. Hou J.Z., Zhou W. and Zhao N. Methods for Prevention of Ignition during Machining of Magnesium Alloys. Key Engineering Materials, 447–448, 2010, 150–154.
  • 7. Hou J.Z., Zhou W. and Zhao N. Effect of Cutting Parameters on Ignition of AM50A Mg Alloy during Face Milling. Materials and Manufacturing Processes, 25(10), 2010, 1048–1051.
  • 8. Kuczmaszewski J. and Zagórski I.: Badania fragmentowania wiórów w procesie frezowania stopów magnezu. Mechanik, 8–9, 2014, 321–328.
  • 9. Kuczmaszewski J. and Zagórski I. Badania masy, temperatury zapłonu oraz temperatury wiórów podczas skrawania wybranych stopów magnezu. Mechanik, 10, 2012, 824–828.
  • 10. Li H.Z., Liu K. and Li X.P. A new method for determining the undeformed chip thickness in milling. Journal of Materials Processing Technology, 113(1–3), 2001, 378–384.
  • 11. Lin P.-Y., Zhou H., Li W., Li W.-P., Sun N. and Yang, R. Interactive effect of cerium and aluminum on the ignition point and the oxidation resistance of magnesium alloy. Corrosion Science, 50(9), 2008, 2669–2675.
  • 12. Liu M., Shih D.S., Parish C. and Atrens A. The ignition temperature of Mg alloys WE43, AZ31 and AZ91. Corrosion Science, 54, 2012, 139–142.
  • 13. Lotfi Sai, Bouzid W. and Zghal A. Chip thickness analysis for different tool motions for adaptive feed rate. Journal of Materials Processing Technology, 204(1–3), 2008, 213–220.
  • 14. Matuszak J. and Zaleski K. Effect of Brushing Parameters Upon Edge States After Wire Brushing of AZ91HP Magnesium Alloy, Advances in Science and Technology Research Journal, 7(20), 2013, 55–60.
  • 15. Oczoś K.E. Rozszerzenie granic stosowalności stopów magnezu. Mechanik 5-6, 2009, 386–400.
  • 16. Polska Norma. Badanie trwałości noży tokarskich punktowych, PN–ISO 3685:1996.
  • 17. Polska Norma. Magnez i stopy magnezu – Gąski i odlewy ze stopów magnezu, PN–EN 1753:2001.
  • 18. Polska Norma. Magnez i stopy magnezu – Anody, gąski i odlewy z magnezu i stopów magnezu – System oznaczenia, PN–EN 1754:2002.
  • 19. Ravi Kumar N.V., Blandin J.J., Suery M. and Grosjean E. Effect of alloying elements on the ignition resistance of magnesium alloys. Scripta Materialia, 49(3), 2003, 225–230.
  • 20. Zhao N., Hou J. and Zhu S. Chip ignition in research on high-speed face milling AM50A magnesium alloy. Second International Conference on Mechanic Automation and Control Engineering, Inner Mongolia, China 2011, 1102–1105.
  • 21. Zhou H., Li W., Wang M. and Zhao Y. Study of ignition proof AZ91D magnesium alloy chips with cerium addition. Journal of Rare Earth, 23(4), 2005, 466–469.
  • 22. http://www.czaki.pl/, accessed on: 9.04.2010.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-671ea227-5c0a-4503-8583-929deaf482e0
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