School of Engineering and Computer Science

Engineering Center, Room 301
115 Library Drive
Rochester, MI 48309-4479
(location map)
Dean's Office: (248) 370-2217
Academic Advising: (248) 370-2201
secsadvising@oakland.edu

School of Engineering and Computer Science

Engineering Center, Room 301
115 Library Drive
Rochester, MI 48309-4479
(location map)
Dean's Office: (248) 370-2217
Academic Advising: (248) 370-2201
secsadvising@oakland.edu

Sergey F. Golovashchenko, Ph.D., ScD

Headshot of Sergey F. Golovashchenko

Associate Professor
Mechanical Engineering Department
(248) 370-4051
golovash@oakland.edu

Ph.D., ScD, Bauman Moscow State Technical University, Russia


Teaching

  • Fundamentals of Metal Forming
  • Mechanics of Metal Forming
  • Metal Forming Processes
  • Mechanics of Materials
  • Leading CLIC Form program preparing engineers to work in manufacturing of sheet metal components

Research

Innovative technologies of sheet metal forming and joining enabling substantial weight savings for automotive industry including high velocity forming and welding methods.

Selected Publications

  1. Cheng, J., Green, D.E., and Golovashchenko, S.F. “Formability enhancement of DP600 steel sheets in electro-hydraulic die forming” Journal of Materials Processing Technology. Volume 244, June 2017, pp. 178–189.

  2. Nasheralahkami, S., Golovashchenko, S.F., Dawson, S. and Sohmshetty, R. “Analysis of Tool Wear for Trimming of DP980 Sheet Metal Blanks” SAE International Journal of Engines, April 2017, Volume 10, pp. 1-6.

  3. Hu, X., Sun, S. and Golovashchenko S.F. "An Integrated Finite Element-based Simulation Framework: From Hole Piercing to Hole Expansion," Journal of Finite Elements Analysis and Design, Vol. 109, 2016, Issue C, pp. 1–13.

  4. Wang, N. and Golovashchenko, S.F. "Mechanism of fracture of aluminum blanks subjected to stretching along the sheared edge,” Journal of Materials Processing Technology, Vol. 233, 2016, pp.142–160.

  5. Mamutov, A.V., Golovashchenko, S.F., Mamutov, V.S. and Bonnen, J.J.F. "Modeling of electrohydraulic forming of sheet metal parts," Journal of Materials Processing Technology, Vol. 219, 2015, pp. 84-100.

  6. Recently granted US Patents 9,770,780; 9,676,054; 9,527,125; 9,522,419; 9,500,304; 9,421,636; 9,375,775; 9,327,331; 9,296,037; 9,266,190; 9,174,259; 9,168,581.