In this paper, a new method for stability analysis of a single degree of freedom (SDOF) cutting system with sinusoidal spindle speed variation (SSSV) is proposed. Based on the approximately periodic property of the time delay in the turning process and the delay decomposition method, novel criteria of stability analysis for an SDOF cutting system are presented. Moreover, a state feedback controller is designed to stabilize the system and improve the steady-state response. Numerical simulation shows the effectiveness of the method
International audienceSpindle speed variation is a well known technique to suppress regenerative mac...
Abstract: In this article, a stability treatment is presented for up-milling and down-milling proces...
First part of the thesis deals with the dynamics and stability of nonlinear delay gyroscopic systems...
In this research, based on a machining chatter model of nonlinear differential-difference equation (...
International audienceThis paper investigates the effectiveness of Sinusoidal Spindle Speed Variatio...
One of the most significant factors adversely affecting the performance of machining processes is ch...
This paper reports a new approach to ensuring the stability of the turning process, which is based o...
The dynamic stability of the milling process is investigated through a single degree-of-freedom mode...
Abstract. High-speed milling operations are often limited by regenerative vibrations. The aim of thi...
Chatter is a vibrational problem affecting machining operations, which may cause bad surface quality...
International audienceHigh-speed milling operations are often limited by regenerative vibrations. Th...
This paper investigates how changes in chatter amplitude and frequency depend on process damping ef...
First part of the thesis deals with the dynamics and stability of nonlinear delay gyroscopic systems...
Dynamic behavior of spindle method influences chatter stability of system tool significantly. A self...
In this paper the dynamic stability of the milling process is investigated through a single degree-o...
International audienceSpindle speed variation is a well known technique to suppress regenerative mac...
Abstract: In this article, a stability treatment is presented for up-milling and down-milling proces...
First part of the thesis deals with the dynamics and stability of nonlinear delay gyroscopic systems...
In this research, based on a machining chatter model of nonlinear differential-difference equation (...
International audienceThis paper investigates the effectiveness of Sinusoidal Spindle Speed Variatio...
One of the most significant factors adversely affecting the performance of machining processes is ch...
This paper reports a new approach to ensuring the stability of the turning process, which is based o...
The dynamic stability of the milling process is investigated through a single degree-of-freedom mode...
Abstract. High-speed milling operations are often limited by regenerative vibrations. The aim of thi...
Chatter is a vibrational problem affecting machining operations, which may cause bad surface quality...
International audienceHigh-speed milling operations are often limited by regenerative vibrations. Th...
This paper investigates how changes in chatter amplitude and frequency depend on process damping ef...
First part of the thesis deals with the dynamics and stability of nonlinear delay gyroscopic systems...
Dynamic behavior of spindle method influences chatter stability of system tool significantly. A self...
In this paper the dynamic stability of the milling process is investigated through a single degree-o...
International audienceSpindle speed variation is a well known technique to suppress regenerative mac...
Abstract: In this article, a stability treatment is presented for up-milling and down-milling proces...
First part of the thesis deals with the dynamics and stability of nonlinear delay gyroscopic systems...