This paper deals with a new mathematical model to characterize the interaction between machine and workpiece in a milling process. The model consists of a harmonic oscillator equation for the dynamics of the cutter and a linear thermoelastic workpiece model. The coupling through the cutting force adds delay terms and further nonlinear effects. After a short derivation of the governing equations it is shown that the complete system admits a unique weak solution. A numerical solution strategy is outlined and complemented by numerical simulations of stable and unstable cutting conditions
Chatter prediction for 2 degree of freedom (DOF) milling model is presented. The workpiece is assume...
When milling in a steady state, unlike, for example, turning, there are periodic elastic deformation...
A hypothesis about thermomechanical nature of self-oscillations during metal machining is offered, t...
This paper deals with a new mathematical model to characterize the interaction between machine and w...
This paper deals with the development of a new mathematical model that characterizes the structure-p...
This paper deals with a new mathematical model to characterise the interaction between machine and ...
We investigate a mathematical model for milling where the cutting tool dynamics is considered togeth...
We investigate a mathematical model for milling where the cutting tool dynamics is considered togeth...
A new technique for determining the stability conditions of delayed differential equations with time...
The modeling of dynamic processes in milling and the determination of stable cutting conditions have...
The principal features of two mathematical models that can be used to study non-linear oscillations ...
Regenerative machine tool chatter is investigated for milling operations with helical tools. The sta...
This article is intended to analyze the dynamic phenomena origin reasons in the process of milling a...
The dynamic stability of the milling process is investigated through a single degree-of-freedom mode...
The single degree of freedom numerical model of plain milling in time domain is represented in this ...
Chatter prediction for 2 degree of freedom (DOF) milling model is presented. The workpiece is assume...
When milling in a steady state, unlike, for example, turning, there are periodic elastic deformation...
A hypothesis about thermomechanical nature of self-oscillations during metal machining is offered, t...
This paper deals with a new mathematical model to characterize the interaction between machine and w...
This paper deals with the development of a new mathematical model that characterizes the structure-p...
This paper deals with a new mathematical model to characterise the interaction between machine and ...
We investigate a mathematical model for milling where the cutting tool dynamics is considered togeth...
We investigate a mathematical model for milling where the cutting tool dynamics is considered togeth...
A new technique for determining the stability conditions of delayed differential equations with time...
The modeling of dynamic processes in milling and the determination of stable cutting conditions have...
The principal features of two mathematical models that can be used to study non-linear oscillations ...
Regenerative machine tool chatter is investigated for milling operations with helical tools. The sta...
This article is intended to analyze the dynamic phenomena origin reasons in the process of milling a...
The dynamic stability of the milling process is investigated through a single degree-of-freedom mode...
The single degree of freedom numerical model of plain milling in time domain is represented in this ...
Chatter prediction for 2 degree of freedom (DOF) milling model is presented. The workpiece is assume...
When milling in a steady state, unlike, for example, turning, there are periodic elastic deformation...
A hypothesis about thermomechanical nature of self-oscillations during metal machining is offered, t...