This paper considers an accepted model of the metal cutting process dynamics in the context of an approximate analysis of the resulting non-linear differential equations of motion. The process model is based upon the established mechanics of orthogonal cutting and results in a pair of non-linear ordinary differential equations which are then restated in a form suitable for approximate analytical solution. The chosen solution technique is the perturbation method of multiple time scales and approximate closed-form solutions are generated for the most important non-resonant case. Numerical data are then substituted into the analytical solutions and key results are obtained and presented. Some comparisons between the exact numerical calculation...
A new approach is used to study the global dynamics of regenerative metal cutting in turning. The cu...
AbstractHarmful self-excited vibrations called chatter occur during cutting processes (milling and t...
In this paper the dynamic stability of the milling process is investigated through a single degree-o...
This paper considers an accepted model of the metal cutting process dynamics in the context of an ap...
Abstract. In the practice of metal treatment by cutting it is frequently necessary to deal with self...
The large-amplitude motions of a one degree-of-freedom model of orthogonal cutting are analysed. The...
This paper investigates how changes in chatter amplitude and frequency depend on process damping ef...
Differential equations of self-excited oscillations, arising in metal cutting process and metal dril...
Vibrations during a cuttting process are analysed by means of a frictional and a regenerative model....
The orthogonal metal cutting process for a controlled contact tool is simulated using a limit analys...
AbstractIn this paper a new frictional model of cutting process [1] developed to gain better insight...
Differential equations of self‐excited oscillations, arising in metal cutting process and metal dril...
A dynamic model for a ball-end milling process that includes the consideration of cutting force nonl...
This paper deals with the modeling and analysis of the cut-ting tool’s global dynamics in the orthog...
The dynamic stability of the milling process is investigated through a single degree-of-freedom mode...
A new approach is used to study the global dynamics of regenerative metal cutting in turning. The cu...
AbstractHarmful self-excited vibrations called chatter occur during cutting processes (milling and t...
In this paper the dynamic stability of the milling process is investigated through a single degree-o...
This paper considers an accepted model of the metal cutting process dynamics in the context of an ap...
Abstract. In the practice of metal treatment by cutting it is frequently necessary to deal with self...
The large-amplitude motions of a one degree-of-freedom model of orthogonal cutting are analysed. The...
This paper investigates how changes in chatter amplitude and frequency depend on process damping ef...
Differential equations of self-excited oscillations, arising in metal cutting process and metal dril...
Vibrations during a cuttting process are analysed by means of a frictional and a regenerative model....
The orthogonal metal cutting process for a controlled contact tool is simulated using a limit analys...
AbstractIn this paper a new frictional model of cutting process [1] developed to gain better insight...
Differential equations of self‐excited oscillations, arising in metal cutting process and metal dril...
A dynamic model for a ball-end milling process that includes the consideration of cutting force nonl...
This paper deals with the modeling and analysis of the cut-ting tool’s global dynamics in the orthog...
The dynamic stability of the milling process is investigated through a single degree-of-freedom mode...
A new approach is used to study the global dynamics of regenerative metal cutting in turning. The cu...
AbstractHarmful self-excited vibrations called chatter occur during cutting processes (milling and t...
In this paper the dynamic stability of the milling process is investigated through a single degree-o...