Optimization and Dynamic Characterization System Part in Turning

Claudiu-Florinel Bisu (MPS); Constantin Ispas (MPS); Alain G\'erard; (LMP); Jean-Yves K'Nevez (LMP)

arXiv:0909.5019·physics.class-ph·September 29, 2009·4 cites

Optimization and Dynamic Characterization System Part in Turning

Claudiu-Florinel Bisu (MPS), Constantin Ispas (MPS), Alain G\'erard, (LMP), Jean-Yves K'Nevez (LMP)

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TL;DR

This paper presents an experimental device and model to analyze the dynamic instability caused by self-sustained vibrations in turning, aiming to better understand and predict machine tool behavior during cutting.

Contribution

It introduces a novel experimental setup and model for characterizing the cutting system's dynamic behavior and vibrations in turning processes.

Findings

01

Self-sustained vibrations indicate dynamic instability in machine tools.

02

Understanding the cutting system's behavior can help predict vibrations.

03

The device aids in analyzing the conditions leading to vibrations.

Abstract

The appearance of the self-sustained vibrations corresponds to the dynamic instability of the machine tool. An experimental device and a model were designed to characterize the cutting system, the block part. This analysis shows the need for knowing more details of it the behavior of the coin at the time of the cut, and for envisaging for the continuation the appearance of vibrations.

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Taxonomy

TopicsAdvanced machining processes and optimization · Engineering Technology and Methodologies · Advanced Surface Polishing Techniques