Cutter selection for 5-axis milling of sculptured surfaces based on accessibility analysis

“…It comes with the workpiece frame O W -X W Y W Z W , where CL data is going to be generated. In our previous work, an accessibility checking algorithm has been proposed to identify the interference-free posture range at a surface point [6]. Such ranges, denoted as A-maps, are used as search space for cutter postures at the CC points.…”

Generation of Optimal Tool-Paths for Five-Axis Finish Milling of Free-Form Surfaces

“…It comes with the workpiece frame O W -X W Y W Z W , where CL data is going to be generated. In our previous work, an accessibility checking algorithm has been proposed to identify the interference-free posture range at a surface point [6]. Such ranges, denoted as A-maps, are used as search space for cutter postures at the CC points.…”

Generation of Optimal Tool-Paths for Five-Axis Finish Milling of Free-Form Surfaces

“…For multiple-axis machining, Lee and Chang [95] represented the effective cutting radius of a cutter by a function of the cutter size and the cutter orientation angles, and selected the optimal cutter by geometric evaluation through the maximum effective cutting radius approach. Li and Zhang [96] developed a search algorithm which was able to find the accessible posture range for a given cutter in terms of the tilting and rotational angles. Then, the optimal cutter was selected to finish the entire surface without any interference.…”

From computer-aided to intelligent machining: Recent advances in computer numerical control machining research

Process Planning for 5-Axis Milling of Sculptured Surfaces Based on Cutter’s Accessibility Analysis