Tool Force in Milling: Difference between revisions
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=Published Cutting Forces= | =Published Cutting Forces= | ||
#Analysis of published cutting forces shows only 100 Newton scale forces. [https://www.researchgate.net/publication/277726371_Effect_of_reinforcement_on_the_cutting_forces_while_machining_metal_matrix_composites-An_experimental_approach] We have 5x this force allowance with the Universal Axis. | #Analysis of published cutting forces shows only 100 Newton scale forces. [https://www.researchgate.net/publication/277726371_Effect_of_reinforcement_on_the_cutting_forces_while_machining_metal_matrix_composites-An_experimental_approach] We have 5x this force allowance with the Universal Axis. | ||
#Here we have 50-100kg tool forces [http://article.sapub.org/10.5923.c.jmea.201502.13.html] | #Lathe - Here we have 50-100kg tool forces [http://article.sapub.org/10.5923.c.jmea.201502.13.html] | ||
#Mill - 10 mm ball mill - up to 200 N forces - [file:///home/marcin/Desktop/jmmp-02-00035.pdf] | |||
Revision as of 16:02, 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.