Existence and Effects of Overlap Factors Greater than Unity and Less than Zero

Gurney, 1961, A graphical method for the determination of the dynamic stability of machine tools, Int’l Journal of Machine Tool Design Research, 1, 148, 10.1016/0020-7357(61)90049-X Jensen, 1997, Stability analysis in face milling operations: Part 1—Theory of stability lobe prediction; Part 2—Experimental validation and influencing factors, ASME Journal of Mfg. Science and Technology, 403 Merchant, 1944, Basic mechanics of metal cutting process, Journal of Applied Physics, 66, A168 Merritt, 1965, Theory of self-excited machine-tool chatter: Contribution to machine tool chatter research—1, ASME Journal of Engg. for Industry, 87, 447, 10.1115/1.3670861 Moriwaki, 1976, In-process analysis of machine tool structure dynamics and prediction of machining chatter, ASME Journal of Engg. for Industry, 98, p301, 10.1115/1.3438837 Nigm, 1981, Experimental investigation of the characteristics of dynamic cutting processes, Int’l Journal of Machine Tool Design Research, 21, 251, 10.1016/0020-7357(81)90022-6 Ozdoganlar, 1998, An analytical stability solution for the turning process with depth-direction dynamics and cornerradiused tooling, 511 Ozdoganlar, 2000, An analytical representation of chip area for corner-radiused tools under depth-of-cut and feed variations, ASME Journal of Mfg. Science and Engg, 122, 660, 10.1115/1.1286470 Srinivasan, 1978, Investigation of the cutting process dynamics in turning operations, ASME Journal of Engg. for Industry, 100, 323, 10.1115/1.3439433 Sweeney, 1969, Survey of basic machine tool chatter research, Int’l Journal of Machine Tool Design Research, 9, 217, 10.1016/0020-7357(69)90001-8 Tobias, 1958, The chatter of lathe tools under orthogonal cutting conditions, Trans. of ASME, 80, 1079