Abstract: The determination of a dynamic law of cut is complex and often very difficult to develop. Several formulations were developed, in very complex ways being given that 3 AD crosses from there, the number of variables is much higher than out of orthogonal cut. The existence of the plan of displacements and the correlations with the elastic characteristics of the machining system thus make it possible to simplify the dynamic model 3D. A dynamic model on the basis of experimental approach is proposed. Simulation is in concord with the experimental results
ABSTRACT In this paper, a three-dimensional dynamic model for the prediction of the stability lobes ...
The simulation of the global Part-Tool-Machine-System (PTMS) dynamic behaviour during cutting is one...
The question of mathematical simulation and identification of the dynamic subsystems parameters of t...
Mathematical simulation and parameter identification of dynamic coupling between the tool and workpi...
In this paper, a new type of model for the end milling process is presented considering cutter flexi...
Mathematical simulation and parameter identification of dynamic coupling between the tool and workpi...
Prediction of machining forces involved in complex geometry can be valuable information for machine ...
Many studies simulates the machining process by using a single degree of freedom spring-mass sytem t...
The dynamics of a milling process can significantly influence the surface quality and integrity of t...
Research and modeling of dynamic structures of the subsystems tool and the workpiece is given contin...
Several methods to predict vibratory behavior in machining are listed in the literature. Some of the...
Machining processes are widely used to achieve the net shape of the parts in the industry. To plan t...
Abstract — Several methods to predict vibratory the behavior in machining are listed in the literatu...
In the machining of shafts with low rigidity it is difficult to achieve the required parameters of a...
This report deals with the analysis and the design of a conventional machining system by means of ma...
ABSTRACT In this paper, a three-dimensional dynamic model for the prediction of the stability lobes ...
The simulation of the global Part-Tool-Machine-System (PTMS) dynamic behaviour during cutting is one...
The question of mathematical simulation and identification of the dynamic subsystems parameters of t...
Mathematical simulation and parameter identification of dynamic coupling between the tool and workpi...
In this paper, a new type of model for the end milling process is presented considering cutter flexi...
Mathematical simulation and parameter identification of dynamic coupling between the tool and workpi...
Prediction of machining forces involved in complex geometry can be valuable information for machine ...
Many studies simulates the machining process by using a single degree of freedom spring-mass sytem t...
The dynamics of a milling process can significantly influence the surface quality and integrity of t...
Research and modeling of dynamic structures of the subsystems tool and the workpiece is given contin...
Several methods to predict vibratory behavior in machining are listed in the literature. Some of the...
Machining processes are widely used to achieve the net shape of the parts in the industry. To plan t...
Abstract — Several methods to predict vibratory the behavior in machining are listed in the literatu...
In the machining of shafts with low rigidity it is difficult to achieve the required parameters of a...
This report deals with the analysis and the design of a conventional machining system by means of ma...
ABSTRACT In this paper, a three-dimensional dynamic model for the prediction of the stability lobes ...
The simulation of the global Part-Tool-Machine-System (PTMS) dynamic behaviour during cutting is one...
The question of mathematical simulation and identification of the dynamic subsystems parameters of t...