Workpiece orientation is formulated as an optimal design problem based on a discrete approximation of design surface geometry, the kinematic capabilities of the process machine tool, and processing cost. The primary process application addressed is three-and four-axis numerically controlled (NC) milling, although the techniques presented may be applied to machines with more general articulation. Recent developments in applied spherical geometry are employed to formulate a constrained problem, and furthermore, a nonlinear optimization problem. For three-axis milling applications, a weight is assigned to each surface normal of the discrete model corresponding to the actual area it represents. Workpiece/machine orientation is optimized such th...
The cost of machining for milling is dependent on machining parameters such as spindle speed and fee...
A regional optimization of automatically generated machining toolpath for computer based freeform me...
AbstractThis paper presents two approaches to reduce the environmental impact of a milling process b...
Workpiece orientation is formulated as an optimal design problem based on a discrete approximation o...
Orienting of a workpiece so as to maximize the number of surfaces machined on a 4-axis Numerical Con...
.Orienting of a workpiece so as to maximize the number of surfaces machined on a 4-axis Numerical Co...
In 4- and 5-axis NC-machines, the time to dismount, recalibrate, and remount the workpiece after eac...
Algorithmic solutions to the problems of workpiece setup orientations and the optimal setup configur...
The precision - speed coupling is a major problematic for 5 axis milling. The precision respect gene...
New 5-axis tool positioning and orientation algorithms are presented that apply differential geometr...
Drastic change of the tool axis vector for five-axis CNC machining due to avoid global interference,...
There is a relatively vast class of tool path optimization methods that minimize cost functions depe...
In CNC machining of sculptured surface parts, using larger cutters can get better surface quality an...
In this paper, we investigate the problems of determining machinability and part set-up orientation ...
In 3½½-axis machining, the machined part surface is partitioned in pre-processing in order to calcul...
The cost of machining for milling is dependent on machining parameters such as spindle speed and fee...
A regional optimization of automatically generated machining toolpath for computer based freeform me...
AbstractThis paper presents two approaches to reduce the environmental impact of a milling process b...
Workpiece orientation is formulated as an optimal design problem based on a discrete approximation o...
Orienting of a workpiece so as to maximize the number of surfaces machined on a 4-axis Numerical Con...
.Orienting of a workpiece so as to maximize the number of surfaces machined on a 4-axis Numerical Co...
In 4- and 5-axis NC-machines, the time to dismount, recalibrate, and remount the workpiece after eac...
Algorithmic solutions to the problems of workpiece setup orientations and the optimal setup configur...
The precision - speed coupling is a major problematic for 5 axis milling. The precision respect gene...
New 5-axis tool positioning and orientation algorithms are presented that apply differential geometr...
Drastic change of the tool axis vector for five-axis CNC machining due to avoid global interference,...
There is a relatively vast class of tool path optimization methods that minimize cost functions depe...
In CNC machining of sculptured surface parts, using larger cutters can get better surface quality an...
In this paper, we investigate the problems of determining machinability and part set-up orientation ...
In 3½½-axis machining, the machined part surface is partitioned in pre-processing in order to calcul...
The cost of machining for milling is dependent on machining parameters such as spindle speed and fee...
A regional optimization of automatically generated machining toolpath for computer based freeform me...
AbstractThis paper presents two approaches to reduce the environmental impact of a milling process b...