بهبود رفتار خستگی فولاد 16MnCr5 مورد استفاده در اسپیندل ماشین‌افزار با استفاده از عملیات‌های سطحی مختلف

نوع مقاله : مقاله پژوهشی

نویسنده

کلیدواژه‌ها

مراجع

  1. Wegst, C.W., Key to steel, Verlag Stahlschlüssel Wegst GMBH 0.050, 0-004, 1998.
  2. Krauss, G., Steels: heat treatment and processing principles, ASM International, p. 497, 1994.
  3. Totten, George E., and Maurice AH Howes, eds., Steel heat treatment handbook. CRC Press, 1997.
  4. Bhadeshia, Harry, and Robert Honeycombe. Steels: microstructure and properties. Butterworth-Heinemann, 2017.
  5. E. Abele, Y. Altintas, and C. Brecher,: “Machine tool spindle units. CIRP Annals-Manufacturing Technology”, 59(2), 2010, 781-802.
  6. T. Y. Chen, W. J. Wei, and J. C.Tsai,: “Optimum design of headstocks of precision lathes”. International Journal of Machine Tools and Manufacture, 39(12), 1999, 1961-1977.
  7. P. H. S. Campos, J.R. Ferreira, A. P. De Paiva, P. P. Balestrassi, and J. P. Davim,: “Modeling and optimization techniques in machining of hardened steels”. A brief review”, Rev Adv Mater Sci, 34(2), 2013, 141-147.
  8. J.K. Choi,: “Thermal characteristics of the spindle bearing system with a gear located on the bearing span”, International Journal of Machine Tools and Manufacture, 38(9), 1998, 1017-1030.
  9. V. Gagnol, B. C. Bouzgarrou, P. Ray, and C. Barra,: “Dynamic analyses and design optimization of high-speed spindle-bearing system”, Advances in Integrated Design and Manufacturing in Mechanical Engineering II, 2007, 505-518.
  10. H. Li, and Y. C. Shin,: “Analysis of bearing configuration effects on high speed spindles using an integrated dynamic thermo-mechanical spindle model”, International Journal of Machine Tools and Manufacture, 44(4), 2004, 347-364.
  11. S. K. Putatunda,: “Fracture toughness of a high carbon and high silicon steel”, Materials Science and Engineering A, 297(1), 2001, 31-43.
  12. Dieter, George Ellwood, and David J. Bacon. Mechanical metallurgy. Vol. 3. New York: McGraw-hill, 1986.
  13. Hertzberg, Richard W. "Deformation and fracture mechanics of engineering materials." (1989).
  14. Forrest, Peter George. Fatigue of metals. Elsevier, 2013.
  15. McLean, Donald. Mechanical properties of metals. Krieger Pub Co, 1977.
  16. W. Dal’Maz Silvaa, J. Dulcya J. Ghanbajaa, A. Redjaimiaa, G. Michelb, S. Thibaultc and T. Belmontea,: “Carbonitriding of low alloy steels: Mechanical and metallurgical responses”, Materials Science and Engineering A, 693, 2017, 225-232.
  17. L. Ceschini, and M. Giangiacomo: “Fatigue behaviour of low temperature carburised AISI 316L austenitic stainless steel”, Surface and Coatings Technology, 202.9, 2008, 1778-1784.
  18. L. B. Winck, J. L. A. Ferreira, J. A. Araujo, M. D. Manfrinato, and C. R. M. da Silva: “Surface nitriding influence on the fatigue life behavior of ASTM A743 steel type CA6NM”, Surface and Coatings Technology, 232, 2013, 844-850.
  19. M.N. Yoozbashi, A. Almasi, The Effect of Various Surface Heat Treatments on Wear Behavior of 16MnCr5 Steel used in Spindles Axis of Machine Tools (In Persian), Journal of Mechanical Engineering of University of Tabriz, 48(1), (2018), 351-357.
  20. M.N. Yoozbashi, N. Vahedi, A. Almasi, “The effects of Tempering Temperature on Wear Behavior of AISI 5115 Steel Used in Spindles of Machine Tools (In Persian)”, Journal of Mechanical Engineering of University of Tabriz, 47(3), (2017), 297-305.
  21. DIN 50 113, Rotating Bar Bending Fatigue Test, German Standards Organization, 1982.
  22. ASTM E975-84, Standard Practice for X-Ray Determination of Retained Austenite in Steel with Near Random Crystallographic Orientation, Annual Book of ASTM Standards, 03.01, (1990), 753-757.
  23. B. C. De Cooman, “Structure–properties relationship in TRIP steels containing carbide-free bainite“, Current Opinion in Solid State and Materials Science, 8(3-4), (2004), 285-303.
مجله بین‌المللی انجمن آهن و فولاد ایران
دوره 16، شماره 2
شهریور 1399
صفحه 9-15

فایل ها

هم رسانی

ارجاع به این مقاله

آمار