Add to ORKGMass customization results in smaller batch sizes in manufacturing that require large numbers of setup and tool changes. The traditional process planning that generates plans for one part at a time is no longer applicable. In this paper, we propose the idea of process planning for small batch manufacturing, i.e., we simultaneously consider multiple parts and exploit opportunities for sharing manufacturing resources such that the process plan will be optimized over the entire set of parts. In particular, we discuss a geometric algorithm for multiple part cutter selection in 2-1/2D milling operations. We define the 2-1/2D milling operations as covering the target region without intersecting with the obstruction region. This definition allows ...
AbstractDue to the rising number of car variants, the production systems in automobile industry are ...
In milling of flexible workpieces, like axial-flow compressor impellers with thin-wall blades and de...
This thesis presents a novel geometric modeling methodology of cutter-workpiece engagement extractio...
The size of milling cutter significantly affects the machining time. Therefore, in order to perform ...
In this paper, we describe a new geometric algorithm to determine the largest feasible cutter size f...
Milling is the mechanical process of removing material from a piece of stock through the use of a ra...
Milling is the mechanical process of removing material from a piece of stock through the use of a ra...
In previous work the authors developed a procedure model for cutting process optimization based on t...
ABSTRACT: In this paper, we describe a new geometric algorithm to determine the largest feasible cut...
This work looks at the milling of complex pockets bounded by NURBS surface. The bulk of the material...
Tool sequence selection is an important activity in process-planning for milling and has great beari...
Pocket machining is an extensively used end milling operation with wide applications in aircraft and...
The process for 2 1/2 D pocket machining generally considers the geometry of 2 1/2D pocket as a prim...
Selecting optimal cutting tools that can answer to the performance criteria of manufacturing economi...
This paper outlines the development of an optimization strategy to determine the optimum cutting par...
AbstractDue to the rising number of car variants, the production systems in automobile industry are ...
In milling of flexible workpieces, like axial-flow compressor impellers with thin-wall blades and de...
This thesis presents a novel geometric modeling methodology of cutter-workpiece engagement extractio...
The size of milling cutter significantly affects the machining time. Therefore, in order to perform ...
In this paper, we describe a new geometric algorithm to determine the largest feasible cutter size f...
Milling is the mechanical process of removing material from a piece of stock through the use of a ra...
Milling is the mechanical process of removing material from a piece of stock through the use of a ra...
In previous work the authors developed a procedure model for cutting process optimization based on t...
ABSTRACT: In this paper, we describe a new geometric algorithm to determine the largest feasible cut...
This work looks at the milling of complex pockets bounded by NURBS surface. The bulk of the material...
Tool sequence selection is an important activity in process-planning for milling and has great beari...
Pocket machining is an extensively used end milling operation with wide applications in aircraft and...
The process for 2 1/2 D pocket machining generally considers the geometry of 2 1/2D pocket as a prim...
Selecting optimal cutting tools that can answer to the performance criteria of manufacturing economi...
This paper outlines the development of an optimization strategy to determine the optimum cutting par...
AbstractDue to the rising number of car variants, the production systems in automobile industry are ...
In milling of flexible workpieces, like axial-flow compressor impellers with thin-wall blades and de...
This thesis presents a novel geometric modeling methodology of cutter-workpiece engagement extractio...