Comprehensive measurement and evaluation system of high-speed motorized spindle

Dashuai ZHOU, Liangsheng WU, Yichuan XIAO

PDF(497 KB)
PDF(497 KB)
Front. Mech. Eng. ›› 2011, Vol. 6 ›› Issue (2) : 263-269. DOI: 10.1007/s11465-011-0217-z
RESEARCH ARTICLE
RESEARCH ARTICLE

Comprehensive measurement and evaluation system of high-speed motorized spindle

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Abstract

Reducing the manufacturing time is the trend of high-precision manufacturing, and the precision of a work-piece is very important for manufacturing industry. The high-speed motorized spindle is the most critical part and becoming more widely used in the machine tool at present, and its precision may affect the overall performance of high-speed cutting. Most of the studies on high-speed cutting are focused on the cutting force, the vibration of the spindle and effects of the spindle’s thermal deformations; hence, how to roundly measure and objectively evaluate high-speed spindle is an imminence question of it because the comprehensive dynamic properties and evaluation system of spindles directly affect the cutting ability of the whole machine tool before they are manufactured. This paper presents a comprehensive measurement and evaluation system of high-speed motorized spindle, which reflects the overall performance of motorized spindle and bases on international standard.

Keywords

high-speed motorized spindle / comprehensive prope rties / evaluation system

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Dashuai ZHOU, Liangsheng WU, Yichuan XIAO. Comprehensive measurement and evaluation system of high-speed motorized spindle. Front Mech Eng, 2011, 6(2): 263‒269 https://doi.org/10.1007/s11465-011-0217-z

References

[1]
Chang C, Chen J, Chen T. A theory thermal growth control techniques of high speed spindles. Valencia: Inst. of Elec. and Elec. Eng. Computer Society, 2008
[2]
Cao Y, Altintas Y. Modeling of Spindle-Bearing and Machine Tool System for Virtual Simulation of Milling Operations. International Journal of Machine Tools & Manufacture, 2007, 47(9): 1342–1350
CrossRef Google scholar
[3]
Yi Z Y. The Structure of Innovative Design for the High Speed Motorized Spindle. Modular Machine Tool & Automatic Manufacturing Technique. 2009(9): 81–83
[4]
Mcgee J, Thompson R A. On a methodology for establishing the machine tool system requirements for high-speed/high-through put machining. Journal of Engg. for industry. 1985, 107: 316–324
[5]
Kaufeld M.High-speed milling from a user’s and machine builder’s viewpoint. Werkstattand Betrieb, 1990, 123(10): 797–801.
[6]
Salomon C.Verfhren zur bearingbeitung von metallen oderbei bearbeitung durch schneidencede werkzeuge von sich ahnlich verhaltenden werkstoffen. Deutsches patent number: 523594
[7]
Tlusty J. System and method of testing machine tools. Microtecnic, 1959, 13: 162–178
[8]
Bryan J, Clouser R W, Holland E.Spindle accuracy. American Machinist, 1967(4): 149–164
[9]
Goddard C. Burdekin, A measuring system for the evolution of spindle rotation accuracy. Birmingham, 1972
[10]
ANSI/ ASME Standard B5. Method For Performance Evaluation of CNC Machining Center, 1992
[11]
ANSI/ ASME Standard B5. Method For Performance Evaluation of CNC Turning Center, 1998
[12]
ISO230 Part3. Test conditions for metal cutting machine tools. Evaluation of Thermal Effects, 2001
[13]
Wang Z C, Hu X L, Zhang C H. Study on thermal errors of high speed motorized spindle on 5-axis CNC machine tools. Materials Science Forum, 2009, 626-627: 411–416
CrossRef Google scholar
[14]
Li W, Pu H, Liu Q. ANSYS-based dynamic analysis of high-speed motorized spindle. 2009 International Conference on Computer Engineering and Technology, 2009: 336–340
[15]
Wu C, Kung Y. A parametric study on oil/air lubrication of a high-speed spindle. Precision Engineering, 2003, 29(2): 162–167
CrossRef Google scholar
[16]
Jywe W, Chen C.The development of a high-speed spindle measurement system using a laser diode and a quadrants sensor. International Journal of Machine Tools and Manufacture, 2005(45): 1162–1170
[17]
Lin C, Tu J F. Model-based design of motorized spindle system go improve dynamic performance at high speeds. Journal of Manufacturing Processes. 2007, 9(2): 94–108
[18]
Jiang S, Zheng S. Dynamic Design of a High-Speed Motorized Spindle-Bearing System. Journal of Mechanical Design, 2010, 132(3): 34501–34505
CrossRef Google scholar

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