{"type":"video","version":"1.0","html":"<iframe src=\"https://www.loom.com/embed/ddc9771ea993438ea6c0ce3e9a1d217e\" frameborder=\"0\" width=\"1152\" height=\"864\" webkitallowfullscreen mozallowfullscreen allowfullscreen></iframe>","height":864,"width":1152,"provider_name":"Loom","provider_url":"https://www.loom.com","thumbnail_height":864,"thumbnail_width":1152,"thumbnail_url":"https://cdn.loom.com/sessions/thumbnails/ddc9771ea993438ea6c0ce3e9a1d217e-f30ca83028c2131e.gif","duration":163.858,"title":"Mill Turn Setup Engine for Eccentric Parts","description":"This Loom explains an integrated mill-turn programming workflow for an eccentric, complex part. The system turns the specified bill into a full set of turning artifacts by extracting the main bore plus faces and OD and internal rings, then calculates cutting tools, approach distance, step depth, and estimated machining time. It also performs roughing analysis showing the virgin billet, post-turning shape, and material remaining on the outside and inside, and breaks roughing into separate in-mills. Next, it extracts all mill features and builds a complete setup engine, routing rotary setups in different colors for a four-axis scenario through a five-axis mill-turn process, with all holes, chamfers, floors, and primitives extracted."}