Magnetic bearings are used in several applications, but they didn’t succeed in the machine tool industry, due basically to their low damping, with its associated low chatter free cutting capacity. This work shows the development of a high speed milling spindle supported on magnetic bearings with high chatter resistance. That is achieved by using control strategies which add damping to the bearings. Excitation by means of the magnetic bearings is used to identify its dynamic behaviour and to optimize the damping parameters. Finally the results of the industrial validation are presented; showing an increase of six times in the cutting capacity
Abstract. High-speed milling operations are often limited by regenerative vibrations. The aim of thi...
Chatter is a type of intensive self-excited vibration commonly encountered in machining. It reduces ...
International audienceHigh-speed milling operations are often limited by regenerative vibrations. Th...
Magnetic bearings are used in several applications, but they didn’t succeed in the machine tool indu...
In machining process, chatter is an unstable dynamic phenomenon which causes overcut and quick tool ...
This chapter presents results on the design and experimental implementation and testing of robust co...
International audienceA new dynamical modeling of Active Magnetic Bearing Spindle (AMBS) to identify...
The general trend towards complete machining calls for tool spindles with a measurably greater range...
Machine tool chatter is a type of intensive self-excited vibration of the individual components in ...
A new concept for increasing process stability during milling processes is presented utilizing a par...
One of the major limitations on productivity in metal cutting is chatter. Chatter is a form of unsta...
Abstract: High-speed machining has improved performance in manufacturing sectors such as the aeronau...
This paper presents how the real-time chatter prevention can be realized by feedback of acoustic cut...
In present day manufacturing industry, an increasing demand for highprecision products at a high pro...
Introduction High-speed machining has become a common method of increasing manufacturing efficiency ...
Abstract. High-speed milling operations are often limited by regenerative vibrations. The aim of thi...
Chatter is a type of intensive self-excited vibration commonly encountered in machining. It reduces ...
International audienceHigh-speed milling operations are often limited by regenerative vibrations. Th...
Magnetic bearings are used in several applications, but they didn’t succeed in the machine tool indu...
In machining process, chatter is an unstable dynamic phenomenon which causes overcut and quick tool ...
This chapter presents results on the design and experimental implementation and testing of robust co...
International audienceA new dynamical modeling of Active Magnetic Bearing Spindle (AMBS) to identify...
The general trend towards complete machining calls for tool spindles with a measurably greater range...
Machine tool chatter is a type of intensive self-excited vibration of the individual components in ...
A new concept for increasing process stability during milling processes is presented utilizing a par...
One of the major limitations on productivity in metal cutting is chatter. Chatter is a form of unsta...
Abstract: High-speed machining has improved performance in manufacturing sectors such as the aeronau...
This paper presents how the real-time chatter prevention can be realized by feedback of acoustic cut...
In present day manufacturing industry, an increasing demand for highprecision products at a high pro...
Introduction High-speed machining has become a common method of increasing manufacturing efficiency ...
Abstract. High-speed milling operations are often limited by regenerative vibrations. The aim of thi...
Chatter is a type of intensive self-excited vibration commonly encountered in machining. It reduces ...
International audienceHigh-speed milling operations are often limited by regenerative vibrations. Th...