International Journal of Mechanical Engineering and Applications

Special Issue

Experimental Researches of Surfaces Roughness of Aluminium Workpieces After Milling at Different Cutting Modes

  • Submission Deadline: May 25, 2020
  • Status: Submission Closed
  • Lead Guest Editor: Denis Chemezov
About This Special Issue
A low surface roughness increases operation of machines parts. Edge cutting machining and abrasive processing on metal cutting machines are used in conditions of serial and mass production of the machine parts. Reducing of the surface roughness of metal workpieces is provided by decreasing of feed and increasing of rotational speed of a cutting tool (workpiece). However, this leads to decreasing of processing performance of the part.
Optimization of processing modes of the aluminium workpiece by end mills of high-speed steel and hard alloy was carried out in production and laboratory conditions based on a multifactorial experiment. Groove milling was carried out with the ''ECOCOOL 68 CF3'' lubricating cooling fluid on the ''DMC 635V Ecoline'' milling machine. The each experiment consisted of eight stages in the which following cutting modes were changed: cutting depth – 0.5-3 mm, a milling cutter rotational speed – 2000-10000 rpm and the workpiece feed – 300-1500 m/min. Roughness of the machined surfaces of the aluminium workpieces was studied using by the ''4XB'' Metallographic microscope (at 100 times magnification). Three-dimensional views of the workpiece surface roughness after milling with the high-speed and carbide end mills were obtained. Recommendations on choice of the most optimal cutting modes for finishing and rough milling of the aluminium workpieces were given.
Aims and Scope:
  1. Milling
  2. Roughness
  3. Cutting modes
  4. Aluminium
  5. Optimization
  6. Surface
Lead Guest Editor
  • Denis Chemezov

    Department of Mechanical Engineering Technology, Vladimir Industrial College, Vladimir, Russian Federation

Guest Editors
  • Margarita Bakhmeteva

    Department of Mechanical Engineering Technology, Vladimir Industrial College, Vladimir, Russian Federation

  • Svetlana Tyurina

    Department of Mechanical Engineering Technology, Vladimir Industrial College, Vladimir, Russian Federation

  • Anzhelika Bayakina

    Department of Mechanical Engineering Technology, Vladimir Industrial College, Vladimir, Russian Federation

  • Irina Medvedeva

    Department of Mechanical Engineering Technology, Vladimir Industrial College, Vladimir, Russian Federation

  • Alexandra Strunina

    Department of Mechanical Engineering Technology, Vladimir Industrial College, Vladimir, Russian Federation

  • Irina Pavlukhina

    Department of Mechanical Engineering Technology, Vladimir Industrial College, Vladimir, Russian Federation

  • Lyudmila Smirnova

    Department of Mechanical Engineering Technology, Vladimir Industrial College, Vladimir, Russian Federation

  • Kamyar Ghorbani

    Department of Materials Science and Engineering, Sharif Department of University of Technology, Tehran, Iran