Thin-wall components are some critical parts that are extensively used in modern industries
due to their high structural efficiency and low specific weight. However, precision machining …

Currently, semi-analytical stability analysis methods for milling processes focus on
improving prediction accuracy and simultaneously reducing computing time. This paper …

The research status and progress of the chatter stability in machining systems were
systematically reviewed. Three types of chatter mechanisms and their interrelationships in …

Chatter can easily occur during robotic milling owing to the low rigidity of serial robots.
Chatter affects the quality of the workpiece surface and damages the robot equipment, which …

The dynamics of thin-walled parts vary in time with the feed of tool and the removal of
material in the milling process, which is a non-negligible phenomenon related to chatter. A …

The deformation and chatter that occur in flank milling thin-walled parts are key factors
affecting the machining quality. To solve the above problems, this paper systematically …

For continuous radial immersion milling operations, the dominant mode shape becomes
difficult to determine when stiffness of the tool and workpiece are comparable, and this can …

As an unfavorable factor of machining process, chatter threatens the machined quality of
workpiece, which determines the assembly and fatigue performance of the workpiece …

Regenerative chatter is the main factor causing milling instability. The stability prediction of
milling process is a useful method to suppress chatter, improve machining efficiency and …

Micro-milling is essential for manufacturing miniature precision components. The process
involves free/restricted tool overhang length, runout, deflection, force and stability. In …