We investigate a mathematical model for milling where the cutting tool dynamics is considered together with an elastic workpiece model. Both are coupled by the cutting forces consisting of two dynamic components representing vibrations of the tool and of the workpiece, respectively, at the present and previous tooth periods. We develop a numerical solution algorithm and derive error estimates both for the semi-discrete and the fully discrete numerical scheme. Numerical computations in the last section support the analytically derived error estimates
peer reviewedAt the 2001 Esaform conference, we have presented a simulation tool designed to predict...
In this paper the dynamic stability of the milling process is investigated through a single degree-o...
peer reviewedThe paper describes a new simulation tool that gives the machined surface error in face...
We investigate a mathematical model for milling where the cutting tool dynamics is considered togeth...
This paper deals with a new mathematical model to characterize the interaction between machine and ...
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...
The dynamic stability of the milling process is investigated through a single degree-of-freedom mode...
Avoiding vibrations during machining is an important issue for industry. When dealing with chatter p...
AbstractDue to the characteristics of the milling process, modeling workpiece dynamics during the ma...
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...
AbstractNumerous analytical methods are available to predict the stability of milling processes. Mos...
This paper deals with the development of a new mathematical model that characterizes the structure-p...
AbstractPrediction of forces between tool and workpiece is essential in order to optimize machining ...
peer reviewedAt the 2001 Esaform conference, we have presented a simulation tool designed to predict...
In this paper the dynamic stability of the milling process is investigated through a single degree-o...
peer reviewedThe paper describes a new simulation tool that gives the machined surface error in face...
We investigate a mathematical model for milling where the cutting tool dynamics is considered togeth...
This paper deals with a new mathematical model to characterize the interaction between machine and ...
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...
The dynamic stability of the milling process is investigated through a single degree-of-freedom mode...
Avoiding vibrations during machining is an important issue for industry. When dealing with chatter p...
AbstractDue to the characteristics of the milling process, modeling workpiece dynamics during the ma...
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...
AbstractNumerous analytical methods are available to predict the stability of milling processes. Mos...
This paper deals with the development of a new mathematical model that characterizes the structure-p...
AbstractPrediction of forces between tool and workpiece is essential in order to optimize machining ...
peer reviewedAt the 2001 Esaform conference, we have presented a simulation tool designed to predict...
In this paper the dynamic stability of the milling process is investigated through a single degree-o...
peer reviewedThe paper describes a new simulation tool that gives the machined surface error in face...