The ball-screw feed drive has varying high-order dynamic characteristics due to flexibilities of the slender screw spindle and joints between components, and an obvious feature of non-collocated control when a direct position measurement using a linear scale is employed. The dynamic characteristics and non-collocated situation have long been the source of difficulties in motion and vibration control, and deteriorate the achieved accuracy of the axis motion. In this study, a dynamic model using a frequency-based substructure approach is established, considering the flexibilities and their variation. The position-dependent variation of the dynamic characteristics is then fully investigated. A corresponding control strategy, which is composed ...
AbstractIn many machining processes cutting forces are of harmonic nature. The frequency content of ...
An analytical modeling approach for ball screw feed drives is proposed to predict the dynamic behavi...
In this thesis, precision modeling, multivariable system identification, and advanced motion control...
This paper examines the frequency response relationship between the ball screw nut preload, ball scr...
This thesis studies in detail the dynamics of ball screw feed drives and expands understanding of th...
Modeling and modal analysis method based on receptance coupling are proposed for a vibration mode of...
Aerospace, die and mold, and automotive industries machine parts at high cutting speeds to reduce pr...
High performance position control in machine tools can only be achieved modelling the dynamic behavi...
This thesis presents new approaches to feed-drive control of computer numerical control (CNC) machin...
The continuous search for efficiency put forward higher requests to the machine tool for high speed ...
Feed drives are used in positioning of machine tools. The drives are actuated either by linear or ro...
Ball screw feed drive system is the most widely used linear drive system in the field of industrial ...
In this paper, a nine degree-of-freedom dynamic model of the ball screw feed system considering the ...
The trend in machine tools and positioning systems nowadays are demanding for accuracy, precision an...
This paper proposes a control strategy based on artificial neural networks (ANN) for a positioning s...
AbstractIn many machining processes cutting forces are of harmonic nature. The frequency content of ...
An analytical modeling approach for ball screw feed drives is proposed to predict the dynamic behavi...
In this thesis, precision modeling, multivariable system identification, and advanced motion control...
This paper examines the frequency response relationship between the ball screw nut preload, ball scr...
This thesis studies in detail the dynamics of ball screw feed drives and expands understanding of th...
Modeling and modal analysis method based on receptance coupling are proposed for a vibration mode of...
Aerospace, die and mold, and automotive industries machine parts at high cutting speeds to reduce pr...
High performance position control in machine tools can only be achieved modelling the dynamic behavi...
This thesis presents new approaches to feed-drive control of computer numerical control (CNC) machin...
The continuous search for efficiency put forward higher requests to the machine tool for high speed ...
Feed drives are used in positioning of machine tools. The drives are actuated either by linear or ro...
Ball screw feed drive system is the most widely used linear drive system in the field of industrial ...
In this paper, a nine degree-of-freedom dynamic model of the ball screw feed system considering the ...
The trend in machine tools and positioning systems nowadays are demanding for accuracy, precision an...
This paper proposes a control strategy based on artificial neural networks (ANN) for a positioning s...
AbstractIn many machining processes cutting forces are of harmonic nature. The frequency content of ...
An analytical modeling approach for ball screw feed drives is proposed to predict the dynamic behavi...
In this thesis, precision modeling, multivariable system identification, and advanced motion control...