Add to ORKGComputer Numerical Controlled (CNC) Milling is used to remove excess metal from a blank to produce the final shape of the workpiece. One limitation of high material removal rates with reduced cost in machining operations is self-excited vibrations called chatter. Chatter results in poor surface finish, damage to the workpiece and machine tool’s spindle, and causes accelerated tool wear. Chatter detection and prevention have been one of the major fields of study in manufacturing to improve the quality and productivity of machining operations. This research proposes a self-evolving, online method to detect and avoid chatter in milling operations by fusing deep learning with the knowledge of chatter theory. The process is monitored by collect...
Abstract — In milling operations, chatter vibration is one of the main factors that lower the produc...
High-speed milling is often used in industry to maximize productivity of the manufacturing of high-t...
The future of the milling process is the fully autonomous operation of the machine tools. Developmen...
Computer Numerical Controlled (CNC) Milling is used to remove excess metal from a blank to produce t...
10th International Congress On Machining (2019; Antalya, Turkey)One of the main pillars of Industry ...
The high-speed milling process is most efficient when the material removal rate or surface generatio...
Unstable chatter seriously reduces the quality of machined workpiece and machining efficiency. In or...
The main productivity constraints of milling operations are self-induced vibrations, especially rege...
Chatter is a self-excited vibration in any machining processes which contributes to the system insta...
One of the major limitations on productivity in metal cutting is chatter. Chatter is a form of unsta...
Real-time chatter detection is crucial for the milling process to maintain the workpiece surface qua...
Nowadays, high levels of automation, integration and flexibility are required to increase the compet...
Chatter vibration is a longstanding problem for machining industry. It lowers both surface finish qu...
Regenerative chatter is one of the most deleterious phenomena affecting machining operations. It aff...
This paper presents a model-based computationally efficient method for detecting milling chatter in ...
Abstract — In milling operations, chatter vibration is one of the main factors that lower the produc...
High-speed milling is often used in industry to maximize productivity of the manufacturing of high-t...
The future of the milling process is the fully autonomous operation of the machine tools. Developmen...
Computer Numerical Controlled (CNC) Milling is used to remove excess metal from a blank to produce t...
10th International Congress On Machining (2019; Antalya, Turkey)One of the main pillars of Industry ...
The high-speed milling process is most efficient when the material removal rate or surface generatio...
Unstable chatter seriously reduces the quality of machined workpiece and machining efficiency. In or...
The main productivity constraints of milling operations are self-induced vibrations, especially rege...
Chatter is a self-excited vibration in any machining processes which contributes to the system insta...
One of the major limitations on productivity in metal cutting is chatter. Chatter is a form of unsta...
Real-time chatter detection is crucial for the milling process to maintain the workpiece surface qua...
Nowadays, high levels of automation, integration and flexibility are required to increase the compet...
Chatter vibration is a longstanding problem for machining industry. It lowers both surface finish qu...
Regenerative chatter is one of the most deleterious phenomena affecting machining operations. It aff...
This paper presents a model-based computationally efficient method for detecting milling chatter in ...
Abstract — In milling operations, chatter vibration is one of the main factors that lower the produc...
High-speed milling is often used in industry to maximize productivity of the manufacturing of high-t...
The future of the milling process is the fully autonomous operation of the machine tools. Developmen...