Lutfi Taner  Tunc

Türkçe sürüm

Lutfi Taner Tunc

E-mail : ttuncsabanciuniv.edu

Personal web page

Education :

2010 - Sabanci University, Industrial Engineering, PhD

2006 - Sabanci University, Industrial Engineering, MSc

2004 - Middle East Technical Universite, Mechanical Engineering, Undergraduate

Areas of Interest :

Geometry, Mechanics, Simulation and Optimization of multi-axis milling operations. Machine Tool Dynamics, Modeling of Metal Cutting Dynamics. Tool path generation techniques. Robotic Machining.

Membership :

CIRP Research Affiliate

Publications :

Article
Özkırımlı, Ömer Mehmet and Tunç, Lütfi Taner and Budak, Erhan (2016) "Generalized model for dynamics and stability of multi-axis milling with complex tool geometries", Journal of Materials Processing Technology, Vol.238, 446-458 (SCI)
Tunç, Lütfi Taner (2016) "Rapid extraction of machined surface data through inverse geometrical solution of tool path information", International Journal of Advanced Manufacturing Technology, Vol.87, No.1-4, 353-362 (SCI)
Tunç, Lütfi Taner and Özkırımlı, Ömer Mehmet and Budak, Erhan (2015) "Generalized cutting force model in multi-axis milling using a new engagement boundary determination approach", International Journal of Advanced Manufacturing Technology, Vol.77, No.1-4, 341-355 (SCI)
Tunç, Lütfi Taner and Budak, Erhan (2013) "Identification and modeling of process damping in milling", Journal of Manufacturing Science and Engineering, Vol.135, No.2 (SCI)
Tunç, Lütfi Taner and Budak, Erhan (2012) "Effect of cutting conditions and tool geometry on process damping in machining", International Journal of Machine Tools and Manufacture, Vol.57, 10-19 (SCI)
Budak, Erhan and Tunç, Lütfi Taner and Alan, Salih and Özgüven, H. Nevzat (2012) "Prediction of workpiece dynamics and its effects on chatter stability in milling", CIRP Annals - Manufacturing Technology, Vol.61, No.1, 339-342 (SCI)
Öztürk, Erdem and Tunç, Lütfi Taner and Budak, Erhan (2011) "Analytical methods for increased productivity in five-axis ball-end milling", International Journal of Mechatronics and Manufacturing Systems (IJMMS), Vol.4, No.3/4, 238-265 (NA)
Budak, Erhan and Tunç, Lütfi Taner (2010) "Identification and modeling of process damping in turning and milling using a new approach", CIRP Annals - Manufacturing Technology, Vol.59, No.1, 403-408 (SCI)
Papers in Conference Proceedings
Özlü, Emre and Tunç, Lütfi Taner and Güven, İpek and Budak, Erhan, "Industrial applications of science integrated machining approach", Kılıç, Engin (ed.), 15. Uluslararası Makina Tasarım ve İmalat Kongresi (UMTİK 2012), Ankara, Turkey: METU (Middle East Technical University), June 2012
Tunç, Lütfi Taner and Budak, Erhan, "Effect of cutting conditions and tool geometry on process damping in machining", Bouzakis, K. (ed.), 4th International Conference on Manufacturing Engineering (ICMEN2011), Thessaloniki, Greece: Aristoteles University of Thessaloniki , October 2011
Özkırımlı, Ömer M. and Tunç, Taner L. and Budak, Erhan, "Simulation of multi-axis machining processes using z-mapping technique", Kaftanoğlu, Bilgin and Budak, Erhan (eds.), 6th International Conference and Exhibition on Design and Production of Machines and Dies/Molds, Ankara, Turkey: Atılım University, June 2011
Before SU Publications:

Tunc L.T., Stoddard D., (2017), Selection of tool path pattern in robotic milling for increased chatter-free material removal. Accepted for publication in the Special Issue on “machining chatter”- International Journal of Advanced Manfuacturing Technology.

Tunc L.T., Budak E., Bilgen S., Zatarain, M. (2016), Process simulation integrated tool axis selection for 5-axis toolpath generation, CIRP Annals, Manufacturing Technology- Vol.65 – Accepted for publication.

Tunc L.T., Shaw J., (2016), Investigation of the Effects of Stewart Platform Type Industrial Robot on Stability of Robotic Milling, The International Journal of Advanced Manufacturing Technology, 1-14. DOI:10.1007/s00170-015-7600-6

Tunc L.T., Shaw J., (2015), Experimental Study on Investigation of Dynamics of Hexapod Robot for Mobile Machining, International Journal of Advanced Manufacturing Technology, http://dx.doi.org/10.1007/s00170-015-7600-6.