Development of a technique for surface treatment of a rotary machine

Development of a technique for surface treatment of a rotary machine

  IJETT-book-cover  International Journal of Engineering Trends and Technology (IJETT)          
  
© 2020 by IJETT Journal
Volume-68 Issue-9
Year of Publication : 2020
Authors : S.V. Sergeyev, Mahmood Shaker albdeiri, O.B. Beshevli
DOI :  10.14445/22315381/IJETT-V68I9P206

Citation 

MLA Style: S.V. Sergeyev, Mahmood Shaker albdeiri, O.B. Beshevli  "Development of a technique for surface treatment of a rotary machine" International Journal of Engineering Trends and Technology 68.9(2020):31-35. 

APA Style:S.V. Sergeyev, Mahmood Shaker albdeiri, O.B. Beshevli. Development of a technique for surface treatment of a rotary machine International Journal of Engineering Trends and Technology, 68(9),31-35.

Abstract
Analytical solve to obtain an accurate surface of the rotor and stator, we calculated the formula of the crank-rocker mechanism and Determination of the angle of exit of the cutter beyond the work surface In order to ensure a surface with a complex shape with a high and accurate surface finish in order to get wear resistance and good lubrication then this gives long time life working. A comparative analysis of traditional methods of restorative treatment of the support surface is carried out, drawbacks are revealed, the main ones of which are unstable quality, low productivity and high cost. Considerable attention is paid to the problem of technological assurance of product quality, efficiency improvement and optimization of technological processes in mechanical engineering technology.

Reference

[1] V.F. Bobrov, “Fundamentals of cutting theory. M.: Mechanical Engineering”. pp. 105-113, 1975.
[2] G.N. Sakharov, “Break-in tools. M.: Mechanical Engineering,” 1983.
[3] A.D. Nikiforov, A.N. Novikov, Yu.F. Nazarov, and A.G. Shitladze, “High technologies of dimensional processing in mechanical engineering,” M.: Higher. shk., S. 290, 2007.
[4] L.A. Gik, and D.I. Shurygin, “Development of universal structures of rotary cutting heads and tools”, STIN. 7, 10– 13, 2009.
[5] M.A. Fedorenko, “Mechanical treatment of large-sized surfaces of revolution without de-installation in operating conditions”, tire building, 10, PP. 14-16, 2008.
[6] L.S. Malko, A.V. Sutyagin, and I.V. Trifanov, “Development of a multi-blade tool for rotary turning of the screw surface of machine parts,” Vestnik SibGAU, 6(32), 2010.
[7] L.S. Malko, A.V. Sutyagin, I.V. Trifanov, “Features of the layout and manufacture of a device integrated with a screwcutting lathe for rotary turning of the screw surface of a part with a multi-blade tool,” Vestnik SibGAU, 6(32), 2010.
[8] O.B. Beshevli, T.A.Duyun, and I.V. Shrubchenko, “Optimization of babbit milling processing methods using a machine module for big bearings treatment,” IOP Conference Series: Materials Science and Engineering, 560(1), ?????? ? 012140, 2019.

Keywords
Surface treatment, rotary machine