A preliminary study of self-interrupted regenerative turning is performed in this paper. To facilitate the analysis, a new approach is proposed to model the regenerative effect in metal cutting. This model automatically incorporates the multiple-regenerative effects accompanying self-interrupted cutting. Some lower dimensional ODE approximations are obtained for this model using Galerkin projections. Using these ODE approximations, a bifurcation diagram of the regenerative turning process is obtained. It is found that the unstable branch resulting from the subcritical Hopf bifurcation meets the stable branch resulting from the self-interrupted dynamics in a turning point bifurcation. Using a rough analytical estimate of the turning point to...
Differential equations of self-excited oscillations, arising in metal cutting process and metal dril...
Machining stability is one of the most important factors influencing the geometrical and dimensional...
A dynamic model for a ball-end milling process that includes the consideration of cutting force nonl...
A new approach is used to study the global dynamics of regenerative metal cutting in turning. The cu...
The chattering in the machine tools is a phenomenon that causes instability in the machining proces...
Regenerative machine tool chatter is investigated in a non-linear single-degree-of-freedom model of ...
International audienceThis work presents nonlinear dynamics modeling results for an investigation of...
Vibrations during a cuttting process are analysed by means of a frictional and a regenerative model....
Regenerative vibration is a major drawback in machining processes reducing the geometric accuracy a...
Abstract. In the practice of metal treatment by cutting it is frequently necessary to deal with self...
A two-degree-of-freedom (2-DOF) model comprising nonlinear delay dierential equa-tions (DDEs) is ana...
The classical model of regenerative vibration is investigated with new kinds of nonlinear cutting fo...
Abstract Stability of a two degrees of freedom model of the turning process is considered. An accura...
In this dissertation, a 2-DOF nonlinear regenerative cutting model with forced vibration from the wo...
Chatter is the self-excited vibration that occurs during cutting. The entire structure of a self-exc...
Differential equations of self-excited oscillations, arising in metal cutting process and metal dril...
Machining stability is one of the most important factors influencing the geometrical and dimensional...
A dynamic model for a ball-end milling process that includes the consideration of cutting force nonl...
A new approach is used to study the global dynamics of regenerative metal cutting in turning. The cu...
The chattering in the machine tools is a phenomenon that causes instability in the machining proces...
Regenerative machine tool chatter is investigated in a non-linear single-degree-of-freedom model of ...
International audienceThis work presents nonlinear dynamics modeling results for an investigation of...
Vibrations during a cuttting process are analysed by means of a frictional and a regenerative model....
Regenerative vibration is a major drawback in machining processes reducing the geometric accuracy a...
Abstract. In the practice of metal treatment by cutting it is frequently necessary to deal with self...
A two-degree-of-freedom (2-DOF) model comprising nonlinear delay dierential equa-tions (DDEs) is ana...
The classical model of regenerative vibration is investigated with new kinds of nonlinear cutting fo...
Abstract Stability of a two degrees of freedom model of the turning process is considered. An accura...
In this dissertation, a 2-DOF nonlinear regenerative cutting model with forced vibration from the wo...
Chatter is the self-excited vibration that occurs during cutting. The entire structure of a self-exc...
Differential equations of self-excited oscillations, arising in metal cutting process and metal dril...
Machining stability is one of the most important factors influencing the geometrical and dimensional...
A dynamic model for a ball-end milling process that includes the consideration of cutting force nonl...