Process stability of a novel roughing-finishing end mill

Abstract: In this paper, stability investigations of a novel roughing-finishing end mill are carried out. This tool possesses two sharp finishing teeth and two radially recessed, chamfered roughing teeth. By applying the same tool for roughing and finishing operations, tool changes and process time can be reduced. For the stability investigations, the semi-discretization method for calculating stability charts was extended and made applicable for the novel tool concept by taking into account the radial recession of the … Show more

“…An optimized tool design can, for example, lead to a reduced transient excitation of a dynamic system, reduce the maximum force amplitudes and thereby disturb the occurrence of the regenerative effect [15][16][17]. Typical examples are geometrical features such as the constant and variable helix angles [18][19][20][21][22], inequalities [23][24][25] or serrated [26][27][28], set-back cutting edges [29] or structured tools [5,30]. A variation of the spindle speed and thus of the excitation frequency modulates the engagement specific wavelength and disturbs the regenerative effect [31][32][33].…”

Disturbance of the Regenerative Effect by Use of Milling Tools Modified with Asymmetric Dynamic Properties

“…An optimized tool design can, for example, lead to a reduced transient excitation of a dynamic system, reduce the maximum force amplitudes and thereby disturb the occurrence of the regenerative effect [15][16][17]. Typical examples are geometrical features such as the constant and variable helix angles [18][19][20][21][22], inequalities [23][24][25] or serrated [26][27][28], set-back cutting edges [29] or structured tools [5,30]. A variation of the spindle speed and thus of the excitation frequency modulates the engagement specific wavelength and disturbs the regenerative effect [31][32][33].…”

Disturbance of the Regenerative Effect by Use of Milling Tools Modified with Asymmetric Dynamic Properties

Identification of rake and flank face engagement parameters using a dexel-based material removal simulation with an oriented sweep volume

Engineered design of cutting tool material, geometry, and coating for optimal performance and customized applications: A review