The modeling of dynamic processes in milling and the determination of stable cutting conditions have become increasingly important for the optimization of manufacturing processes. Analytic approaches and time domain simulations based on simplified dynamic systems are used to identify chatter-free machining conditions. Stresses applied to the system are generally estimated by cutting force models. The goal of this paper is to compare the influence of the cutting force models on the stability limits. Numerical simulations of a simplified, generic milling machine model are therefore performed, while varying the cutting force approach. In order to distinguish stable from unstable cutting conditions a numerical stability criterion is used. The r...
Productivity of high-speed turning operations is limited by the onset of self-excited vibrations kno...
This paper deals with a new mathematical model to characterize the interaction between machine and ...
The calculations of machining stability limit currently known do not provide a precise prediction of...
The modeling of dynamic processes in milling and the determination of stable cutting conditions have...
This paper deals with a new mathematical model to characterise the interaction between machine and w...
Chatter prediction for 2 degree of freedom (DOF) milling model is presented. The workpiece is assume...
Simulation of the milling process is a widespread method to improve productivity in the machining pr...
AbstractPrediction of Process Machine Interactions (PMI) can be achieved using models for convention...
Machine tool chatter is a serious problem which deteriorates surface quality of machined parts and i...
The dynamic stability of the milling process is investigated through a single degree-of-freedom mode...
A new technique for determining the stability conditions of delayed differential equations with time...
AbstractIn this paper, the instantaneous undeformed chip thickness is modeled to include the dynamic...
none2Productivity of high speed milling operations can be seriously limited by chatter occurrence. S...
Regenerative machine tool chatter is investigated for milling operations with helical tools. The sta...
The problem of undesired self-excited chatter vibrations in milling is very common. However, only in...
Productivity of high-speed turning operations is limited by the onset of self-excited vibrations kno...
This paper deals with a new mathematical model to characterize the interaction between machine and ...
The calculations of machining stability limit currently known do not provide a precise prediction of...
The modeling of dynamic processes in milling and the determination of stable cutting conditions have...
This paper deals with a new mathematical model to characterise the interaction between machine and w...
Chatter prediction for 2 degree of freedom (DOF) milling model is presented. The workpiece is assume...
Simulation of the milling process is a widespread method to improve productivity in the machining pr...
AbstractPrediction of Process Machine Interactions (PMI) can be achieved using models for convention...
Machine tool chatter is a serious problem which deteriorates surface quality of machined parts and i...
The dynamic stability of the milling process is investigated through a single degree-of-freedom mode...
A new technique for determining the stability conditions of delayed differential equations with time...
AbstractIn this paper, the instantaneous undeformed chip thickness is modeled to include the dynamic...
none2Productivity of high speed milling operations can be seriously limited by chatter occurrence. S...
Regenerative machine tool chatter is investigated for milling operations with helical tools. The sta...
The problem of undesired self-excited chatter vibrations in milling is very common. However, only in...
Productivity of high-speed turning operations is limited by the onset of self-excited vibrations kno...
This paper deals with a new mathematical model to characterize the interaction between machine and ...
The calculations of machining stability limit currently known do not provide a precise prediction of...