This project report deals with development of the control system for the milling machine. Vibration during turning process caused chatter in surface product and affects the outcome of products. The control system used to suppress vibration a chatter using machining process. Dynamic model diagram and mathematically model had derived from the two degree of freedom (2-DOF) for the cutting tool. The research project has only focused to Y-axis direction for milling machine. Control system used in this project is passive system. For active system that had been introduces two type of controller such as typically technique proportional-integral-derivative (PID) and Fuzzy Logic Control (FLC). To complete the active system, linear actuator had been u...
The objective is to develop a two degree of freedom model with PID controller for turning process to...
Proportional-integral-differential (PID) controllers are the most commonly used controllers in the p...
The development of a Self Tuning Fuzzy proportional-integral-derivative (PID) controller was done to...
This project report deals with development of the control system for the conventional lathe machine....
The control system was used to suppress vibration chatter from machining process. Dynamic and mathem...
Chatter is an obstacle for achieving high-quality machining process and high production rate in indu...
This paper presents a study of vibration control through an active force control (AFC) scheme. AFCs ...
This paper presents the vibration control through active force control (AFC) scheme. AFC is a widely...
This work deals with an hybrid PID+fuzzy logic controller applied to control the machine tool biaxia...
In order to achieve a high-quality machining process with superior productivity, it is very importan...
© Springer Nature Switzerland AG 2020. The technique of mitigating chatter phenomenon in an effectiv...
This thesis reports a fuzzy control system designed for power control of end milling processes. As c...
This paper present about the performance of vibration control via active force control (AFC) scheme...
In order to achieve a high-quality machining process with superior productivity, it is very importan...
AbstractThe feed servo system of CNC machine tool is a complex electromechanical coupling system. Du...
The objective is to develop a two degree of freedom model with PID controller for turning process to...
Proportional-integral-differential (PID) controllers are the most commonly used controllers in the p...
The development of a Self Tuning Fuzzy proportional-integral-derivative (PID) controller was done to...
This project report deals with development of the control system for the conventional lathe machine....
The control system was used to suppress vibration chatter from machining process. Dynamic and mathem...
Chatter is an obstacle for achieving high-quality machining process and high production rate in indu...
This paper presents a study of vibration control through an active force control (AFC) scheme. AFCs ...
This paper presents the vibration control through active force control (AFC) scheme. AFC is a widely...
This work deals with an hybrid PID+fuzzy logic controller applied to control the machine tool biaxia...
In order to achieve a high-quality machining process with superior productivity, it is very importan...
© Springer Nature Switzerland AG 2020. The technique of mitigating chatter phenomenon in an effectiv...
This thesis reports a fuzzy control system designed for power control of end milling processes. As c...
This paper present about the performance of vibration control via active force control (AFC) scheme...
In order to achieve a high-quality machining process with superior productivity, it is very importan...
AbstractThe feed servo system of CNC machine tool is a complex electromechanical coupling system. Du...
The objective is to develop a two degree of freedom model with PID controller for turning process to...
Proportional-integral-differential (PID) controllers are the most commonly used controllers in the p...
The development of a Self Tuning Fuzzy proportional-integral-derivative (PID) controller was done to...