Abstract
The cutting forces that are generated during metal cutting influence the work piece precision, tool wear, the nature of the machined surface, and heat generation. These cutting forces can be measured analytically however; precise outcomes may not be expected due to its included stresses, parameters of cutting, and the perplexing tool geometry. Henceforth the exploratory estimation of cutting forces is fundamental. For this reason, a milling dynamometer of three-segment is structured, created, and tried to gauge the three cutting forces which are produced during the operation of milling strain gauges can be utilized to quantify dynamic and static cutting forces through milling dynamometer. During the process of metal cutting, a dynamometer that is based on strain gauge is fit for estimating three-force segments. The dynamometer was designed based on the octagonal ring principle. The octagonal rings orientation and location of strain gauges have resolved to expand affectability and to limit cross-affectability.
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