A general algorithm for the kinematic analysis and the determination of both fixed and moving centrodes of the relative motion between rotating tool and workpiece, is proposed to analyze the effects of the working parameters on the quality of the machining process. The reciprocating motion of the rotating tool can be generated by both offset slider-crank mechanism with the driving crank and offset slider-rocker mechanism with the driving coupler. The proposed algorithm has been implemented in Matlab and validated by means of significant examples.
Kinematic Analysis and Centrodes Between Rotating Tool with Reciprocating Motion and Workpiece
Figliolini G.
;Lanni C.;
2022-01-01
Abstract
A general algorithm for the kinematic analysis and the determination of both fixed and moving centrodes of the relative motion between rotating tool and workpiece, is proposed to analyze the effects of the working parameters on the quality of the machining process. The reciprocating motion of the rotating tool can be generated by both offset slider-crank mechanism with the driving crank and offset slider-rocker mechanism with the driving coupler. The proposed algorithm has been implemented in Matlab and validated by means of significant examples.File in questo prodotto:
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