Fuzzy stability analysis of regenerative chatter in milling

Plunge milling operations are used to remove excess material in boring cylinders, roughing pockets, dies and mold cavities. This paper presents a frequency domain, chatter stability prediction theory for plunge milling. The regenerative chip thickness is modeled as a function of lateral, axial and t

Micro-milling utilizes miniature end mills to fabricate complex shapes at high rotational speeds. One of the challenges in micro-machining is regenerative chatter, which results in severe tool wear and reduced part quality. The high rotational speeds of micro-milling cause changes in dynamics; and,

Accurate prediction of the onset of chatter is difficult in designing and operating a rolling mill. Both the lack of precise rolling process models and analytical methods for the investigation of mill stability have forced designers and users to rely on experience and trial and error, which are time

Current methods for estimating chatter stability limits for milling do not consider the influence of the helix angle and the consequent phase lag between the forces appearing at different sections of the mill. Budak and Altintas' multifrequency solution is extended to include the helix effect, and r