In this paper, we describe a two-phase methodology for selecting an optimal set of cutting-tool sizes to machine a 2 D pocket.
Existing commercial CAD/CAM systems allow the user to generate the cutter-path for machining a 2-1/2D pocket by using only a single cutting-tool size.
People also ask
What are the factors to be considered for the selection of cutting tools?
How do you select the correct cutting tool?
What cutting tool is specified for machining the slot?
Which type of cutting tool is used to machine a pocket feature into a workpiece?
In the second phase, we apply a dynamic programming approach for optimal selection of cutting-tool sizes on the basis of the processing time. Our computational ...
This work describes an approach to finding an optimal (within a requested approximation ratio) set of cutter radii for machining a given 2-dimensional ...
Veeramani, D. and Gau, Y.-S. (1997) Selection of an optimal set of cutting-tool sizes for 2-1/2D pocket machining. Computer Aided Design, 29(12), 869-877.
We describe an approach to finding an optimal (within a re- quested approximation ratio) set of cutter radii for machining a given 2-dimensional pocket.
Therefore, in order to perform milling operations efficiently, we need to select a set of milling cutters with optimal sizes. It is difficult for human process ...
Mar 24, 2008 · We describe an approach to finding an optimal (within a requested approximation ratio) set of cutter radii for machining a given ...
This paper presents a method for selecting optimal tools for pocket machining for the components of injection mold. The branch and bound method is applied to ...
In this paper, we describe a method to select an optimal tool sequence by formulating the problem under certain assumptions as the shortest path solution to a ...