Abstract: A complex machining model describing the coupled tool–workpiece dynamics subject to nonlinear regenerative cutting forces, instantaneous depth-of-cut and workpiece whirling due to material imbalance is presented. The workpiece is modeled as a system of three rotors, namely, unmachined, being machined and machined, connected by a flexible shaft, thus enabling the motion of the workpiece relative to the tool and tool motion relative to the machining surface to be three-dimensionally established as functions of spindle speed, depth-of-cut, rate of material removal and whirling. A rich set of nonlinear behaviors of both the tool and workpiece including period-doubling bifurcation and chaos signifying the extent of machining instabilit...
Several methods to predict vibratory behavior in machining are listed in the literature. Some of the...
The present paper is on the study of whirling dynamics of the tool workpiece system in a deep hole m...
The present paper is on the study of whirling dynamics of the tool workpiece system in a deep hole m...
Tool chatter in longitudinal turning is addressed with a new perspective using a complex machining m...
AbstractAn innovative modeling approach to study the whirling motion of the lathe machine in the int...
High-productivity machining processes cause tool and material defects and even damages in machine sp...
Excessive vibrations continue to be a major hurdle in improving machining efficiency and achieving s...
Regenerative machine tool chatter is investigated in a non-linear single-degree-of-freedom model of ...
Research of machining dynamics have longstanding history in manufacturing processes with considerati...
This paper presents analytical models dealing with time domain cutting forces and the time and frequ...
Whirling milling is a promising machining process that couples the tools and workpiece motions while...
Title from PDF of title page (University of Missouri--Columbia, viewed on June 9, 2010).The entire t...
A two-degree-of-freedom (2-DOF) model comprising nonlinear delay dierential equa-tions (DDEs) is ana...
In this paper, the authors propose the generic concept of machining instability based on the analysi...
AbstractThis paper describes numerical and experimental analyses of milling bifurcations, or instabi...
Several methods to predict vibratory behavior in machining are listed in the literature. Some of the...
The present paper is on the study of whirling dynamics of the tool workpiece system in a deep hole m...
The present paper is on the study of whirling dynamics of the tool workpiece system in a deep hole m...
Tool chatter in longitudinal turning is addressed with a new perspective using a complex machining m...
AbstractAn innovative modeling approach to study the whirling motion of the lathe machine in the int...
High-productivity machining processes cause tool and material defects and even damages in machine sp...
Excessive vibrations continue to be a major hurdle in improving machining efficiency and achieving s...
Regenerative machine tool chatter is investigated in a non-linear single-degree-of-freedom model of ...
Research of machining dynamics have longstanding history in manufacturing processes with considerati...
This paper presents analytical models dealing with time domain cutting forces and the time and frequ...
Whirling milling is a promising machining process that couples the tools and workpiece motions while...
Title from PDF of title page (University of Missouri--Columbia, viewed on June 9, 2010).The entire t...
A two-degree-of-freedom (2-DOF) model comprising nonlinear delay dierential equa-tions (DDEs) is ana...
In this paper, the authors propose the generic concept of machining instability based on the analysi...
AbstractThis paper describes numerical and experimental analyses of milling bifurcations, or instabi...
Several methods to predict vibratory behavior in machining are listed in the literature. Some of the...
The present paper is on the study of whirling dynamics of the tool workpiece system in a deep hole m...
The present paper is on the study of whirling dynamics of the tool workpiece system in a deep hole m...