Sensor fusion for tool wear monitoring during machining of different plastic matrix fibre reinforced composite materials was carried out through the detection and analysis of cutting force and acoustic emission signals. Orthogonal cutting tests were performed using two different tool states: fresh and worn. Decision making on tool condition was achieved through a supervised neural network approach, using diverse back-propagation feed-forward neural network configurations, trained and testing with sensor fusion feature vectors
A multiple sensor monitoring system, endowed with cutting force, acoustic emission and vibration sen...
AbstractIn the cutting zone of a machining process, several variables are influenced by process cond...
The knowledge on the machining of ductile metals is not suitable for fibre reinforced plastic matrix...
Sensor fusion for tool wear monitoring during machining of different plastic matrix fibre reinforced...
By their nature, composite materials are non-homogeneous, anisotropic, and reinforced with abrasive ...
The knowledge on the machining of ductile metals is not suitable for fibre reinforced plastic matrix...
In this paper, multiple sensor monitoring applications for process optimisation during machining of ...
Composite materials are among the most interesting engineering materials because their complex struc...
Composite materials are more difficult to machine than metals mainly because they are anisotropic, n...
An intelligent sensor monitoring procedure was implemented to monitor the drilling of carbon fiber r...
An acoustic emission and force-based sensor fusion system involving pattern recognition analysis has...
A multiple sensor monitoring system comprising cutting force, acoustic emission and vibration sensin...
The knowledge on the machining of ductile metals is not suitable for fibre reinforced plastic matrix...
The present paper presents comparative results of the forecasting of a cutting tool wear with the ap...
The wear of cutting tool degrades the quality of the product in the manufacturing processes. The onl...
A multiple sensor monitoring system, endowed with cutting force, acoustic emission and vibration sen...
AbstractIn the cutting zone of a machining process, several variables are influenced by process cond...
The knowledge on the machining of ductile metals is not suitable for fibre reinforced plastic matrix...
Sensor fusion for tool wear monitoring during machining of different plastic matrix fibre reinforced...
By their nature, composite materials are non-homogeneous, anisotropic, and reinforced with abrasive ...
The knowledge on the machining of ductile metals is not suitable for fibre reinforced plastic matrix...
In this paper, multiple sensor monitoring applications for process optimisation during machining of ...
Composite materials are among the most interesting engineering materials because their complex struc...
Composite materials are more difficult to machine than metals mainly because they are anisotropic, n...
An intelligent sensor monitoring procedure was implemented to monitor the drilling of carbon fiber r...
An acoustic emission and force-based sensor fusion system involving pattern recognition analysis has...
A multiple sensor monitoring system comprising cutting force, acoustic emission and vibration sensin...
The knowledge on the machining of ductile metals is not suitable for fibre reinforced plastic matrix...
The present paper presents comparative results of the forecasting of a cutting tool wear with the ap...
The wear of cutting tool degrades the quality of the product in the manufacturing processes. The onl...
A multiple sensor monitoring system, endowed with cutting force, acoustic emission and vibration sen...
AbstractIn the cutting zone of a machining process, several variables are influenced by process cond...
The knowledge on the machining of ductile metals is not suitable for fibre reinforced plastic matrix...