OBRADA GLODANJEM PODRŽANA ULTRAZVUKOM
Ključne reči:
Obrada glodanjem, obrada ultrazvukom, ultrazvukom podržano glodanje
Apstrakt
Spoj konvencionalnog glodanja i ultrazvučne obrade, tačnije ultrazvučnih vibracija su rezultovale hibridnoj obradi pod nazivom ultrazvukom podržano glodanje. U ovom radu je pored opisa svake tehnologije, priložen niz eksperimenata u kojima se porede izlazne karakteristike dobijene konvencionalnim glodanjem i ultrazvukom podržanim glodanjem.
Reference
[1] D. Milikić, M. Gostimirović, M. Sekulić: Osnove tehnologije obrade rezanjem, Fakultet tehničkih nauka, Novi Sad, 2008.
[2] M. Gostimirović: Nekonvencionalni postupi obrade, Fakultet tehničkih nauka, Novi Sad, 2009.
[3] A. Latif: Experimental study of biomedical stainless steel 316L vibration assisted milling using retrofittable 1D UVAM worktable, Faculty of Mechanical and Manufacturing Engineering, Johor, 2017.
[4] J. Liu, X. Jiang, X. Han, Z. Gao, D. Zhang: Effects of rotary ultrasonic elliptical machining for side milling on the surface integrity of Ti-6Al-4V, School of Mechanical Engineering and Automation, Beijing, 2018.
[5] S. Lin, C. Kuan, C. She, W. Wang: Application of Ultrasonic Assisted Machining Technique for Glass-Ceramic Milling, World Academy of Science, Engineering and Technology International Journal of Mechanical and Mechatronics Engineering Vol:9, No:5, 2015.
[6] M. Hafiz, M. Kawaz, W. Mohamad, M. Kasim, R. Izamshah, J. Saedon, S. Mohamed: A review on feasibility study of ultrasonic assisted machining on aircraft component manufacturing, Faculty of Manufacturing Engineering, Malaysia, 2017.
[7] M. M. Abootorabi Zarchi, M. R. Razfar, A. Abdullah: Influence of ultrasonic vibrations on side milling of AISI 420 stainless steel, Faculty of Mechanical Engineering, Teheran, 2012.
[8] J. Zhang, H. Li, J. Wang, X. Wang, X. Shen: Ultrasonic vibration-assisted milling of aluminum alloy, Department of Mechanical Engineering, Jinan, 2012.
[9] J. Xiaoliang, X. Bouyan: Experimental study on surface generation in vibration-assisted micro-milling of glass, Oklahoma State University, Stillwater, 2015.
[2] M. Gostimirović: Nekonvencionalni postupi obrade, Fakultet tehničkih nauka, Novi Sad, 2009.
[3] A. Latif: Experimental study of biomedical stainless steel 316L vibration assisted milling using retrofittable 1D UVAM worktable, Faculty of Mechanical and Manufacturing Engineering, Johor, 2017.
[4] J. Liu, X. Jiang, X. Han, Z. Gao, D. Zhang: Effects of rotary ultrasonic elliptical machining for side milling on the surface integrity of Ti-6Al-4V, School of Mechanical Engineering and Automation, Beijing, 2018.
[5] S. Lin, C. Kuan, C. She, W. Wang: Application of Ultrasonic Assisted Machining Technique for Glass-Ceramic Milling, World Academy of Science, Engineering and Technology International Journal of Mechanical and Mechatronics Engineering Vol:9, No:5, 2015.
[6] M. Hafiz, M. Kawaz, W. Mohamad, M. Kasim, R. Izamshah, J. Saedon, S. Mohamed: A review on feasibility study of ultrasonic assisted machining on aircraft component manufacturing, Faculty of Manufacturing Engineering, Malaysia, 2017.
[7] M. M. Abootorabi Zarchi, M. R. Razfar, A. Abdullah: Influence of ultrasonic vibrations on side milling of AISI 420 stainless steel, Faculty of Mechanical Engineering, Teheran, 2012.
[8] J. Zhang, H. Li, J. Wang, X. Wang, X. Shen: Ultrasonic vibration-assisted milling of aluminum alloy, Department of Mechanical Engineering, Jinan, 2012.
[9] J. Xiaoliang, X. Bouyan: Experimental study on surface generation in vibration-assisted micro-milling of glass, Oklahoma State University, Stillwater, 2015.
Objavljeno
2020-02-18
Sekcija
Mašinsko inženjerstvo