Select optimal tools (end mills, face mills, form cutters, gear-cutting mills) and cutting parameters (feeds, speeds, depths) to meet material, tolerance and surface finish requirements (especially for induction-hardened parts).
Simulate toolpaths, identify collisions, overcuts/undercuts, optimize machining time while safeguarding component integrity and meeting tolerance.
Manage complex geometries such as internal gear features, splines, flanges, bores, having close tolerances and high surface finish demands.
...
Select optimal tools (end mills, face mills, form cutters, gear-cutting mills) and cutting parameters (feeds, speeds, depths) to meet material, tolerance and surface finish requirements (especially for induction-hardened parts).
Simulate toolpaths, identify collisions, overcuts/undercuts, optimize machining time while safeguarding component integrity and meeting tolerance.
Manage complex geometries such as internal gear features, splines, flanges, bores, having close tolerances and high surface finish demands.
...