This content is not included in
your SAE MOBILUS subscription, or you are not logged in.
Chatter Reduction in Machine Tools
Annotation ability available
Sector:
Language:
English
Abstract
In machining processes, self excited vibration or chatter is often a source of problems associated with poor surface finish and reduced tool life. Chatter has been recognized as the critical factor limiting productivity, since it prevents the full utilization of the installed power of the machine tool. The basic cause of chatter is the dynamic interaction of the cutting process and the machine tool structure. Chatter in the cutting process can be significantly reduced by altering the machine tool structure design and also by controlling the machining process. Two methods of reducing machine tool chatter will be addressed in this paper. First, the improvement in the design of the machine tool by selecting nontraditional structural material, and second, ways of improving the machining processs will be discussed.
Authors
Citation
Bandyopadhyay, B. and Bhatacharya, R., "Chatter Reduction in Machine Tools," SAE Technical Paper 910956, 1991, https://doi.org/10.4271/910956.Also In
References
- Tobias S.A. Machine Tool Vibration J. Wiley London 1965
- Koenigsberger E. Tlusty J. Machine Tool Structure Pergamon Press Oxford 1970
- Kudinov V.A. Dynamics of Machine Tools Mashinostroenie Moscow 1967
- McKeown P.A. The Development of High Precision CNC Machine Tools Journal of Mechanical Working Technology Elsevier Amsterdam 17 1988 225 236
- Morgan, C.H. McKeowon, P.A. Renker, H.J. Materials for Machine Tools Structure, 20th IMTDR 1980 429 434
- Oviawe, S.E. Tay, T. Shumsheruddin, A.A. Development of a Machine Tool Structure Using Composite Synthetic Granite, 23rd MTDR 1983 31 37
- Rahman, M. Mansur, M.A. Ambrose, W.D. Chua, K.H. A Study on the Application of Cementation Materials for Machine Tool Structure Proc. 6th ICPR Osaka 1987
- Abercrombie, S. Ferrocement London Hale 1978
- State of the Art Report on Ferrocement Report by ACI Committee 549 Concrete International Aug. 82
- Yimprasert, P. Durability, Strength, and Method of Application of Polymer-impregnated Concrete for Slabs The University of Texas 1978
- Granitan Report by Fritz Studer AG Switzerland
- Zorev, N.N. Metal Cutting Mechanics Pergamon Press 1966
- Eremin, A.N. The Physical Basis of Phenomena in Cutting Steel Mashgiz 1954
- Heginbotham, W.B. Gogia, S.L. Metal Cutting and the Built-up Nose Proc. Instn. Mech. Engrs. 175 18 1961 892 917
- Hua Zhou Ze The Effect of Cutting Condition on the Built-up Edge Proc. 21st IMTDR Macmillan 1981
- Pekelharing, A.J. Built-up Edge: Is the Mechanism Understand? Anals of the CIRP 23 2 1974 207 212
- Selvam, M.S. Radhakrishnan, V. Influence of Side Flow and Built-up Edge on the Roughness and Hardness of the Surface Machined with a Single Point Tool Wear 26 3 1973 393 403
- Wever, H.W. The Effect of Built-up Edge on Machining Can. Machine and Metal Work 85 1 1974
- Trent, E.M. Metal Cutting Butterworths London 1977
- Bandyopadhyay, B.P. Productivity Improvement by Controlling the Built-up Edge Formation, IX ICPR Cincinnati 1987 1012 1017
- Loladze, T.N. Chip Forming in Metal Cutting M. Mashgiz 1952
- Schonberger, R.J. Japanese Manufacturing Techniques The Free Press N.Y. 1982
- Ross, P.J. Taguchi Techniques for Quality Engineering McGraw-Hill N.Y. 1988
- UrmaBore, Modular Boring Systems, Catalog by Command Corporation International Minneapolis