Tool Force in Milling: Difference between revisions
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Analysis of tool force indicates that feed force (force in the direction of feed) is only 20% of total tooling force. [https://www.mmsonline.com/articles/a-new-milling-101-milling-forces-and-formulas]. This bodes well for belt-driven universal axes, in that a 100 lb tool feed force limit allows for 500lb overall tooling force limit. | Analysis of tool force indicates that feed force (force in the direction of feed) is only 20% of total tooling force. [https://www.mmsonline.com/articles/a-new-milling-101-milling-forces-and-formulas]. This bodes well for belt-driven universal axes, in that a 100 lb tool feed force limit allows for 500lb overall tooling force limit? | ||
Not clear. Tangential forces are 70%. If tangential in direction of feed, this does not help. | |||
'''But - overall milling forces appear to be on the order of 100-200N, which is well within the capacity of GT2 precision belt drive.''' | |||
=Published Cutting Forces= | =Published Cutting Forces= | ||
Revision as of 16:05, 14 July 2020
Analysis of tool force indicates that feed force (force in the direction of feed) is only 20% of total tooling force. [1]. This bodes well for belt-driven universal axes, in that a 100 lb tool feed force limit allows for 500lb overall tooling force limit?
Not clear. Tangential forces are 70%. If tangential in direction of feed, this does not help.
But - overall milling forces appear to be on the order of 100-200N, which is well within the capacity of GT2 precision belt drive.