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The International Journal of Advanced Manufacturing Technology

Erschienen in:

19.02.2024 | ORIGINAL ARTICLE

An efficient and precise stability analysis method for milling process

verfasst von: Chunjing Liu, Dunbing Tang, Xingqiang Chen, Guohua Ding

Erschienen in: The International Journal of Advanced Manufacturing Technology | Ausgabe 7-8/2024

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Abstract

Regenerative chatter is a detrimental self-excited vibration that significantly impacts machining efficiency and surface quality. This study presents a novel methodology for generating a stability lobe diagram for milling processes, utilizing the Lagrange polynomial and direct integration scheme. The delay and state terms of the milling dynamic equation are iteratively computed using second- and third-order Lagrange polynomials, respectively. Analysis of the convergence rate and fitting error demonstrates that the improved full-discretization algorithm offers superior accuracy compared to alternative approaches. Moreover, the proposed algorithm exhibits a computational speed that is 67.3% faster than the first-order semi-discretization method. The stability of milling, considering a specific combination of cutting parameters, is analyzed in the time domain, frequency domain, and through synchronous sampling. The obtained results consistently align with the stable lobe diagram constructed using the proposed algorithm. Experimental findings validate that the proposed milling dynamic model and algorithm are effective, which can provide a robust theoretical foundation for practical lobe diagram processing.

Graphical abstract

Vorheriger Artikel An integrated framework for a multi-material surface roughness prediction model in CNC turning using theoretical and machine learning methods

Nächster Artikel A novel approach to voice of customer extraction using GPT-3.5 Turbo: linking advanced NLP and Lean Six Sigma 4.0

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Titel: An efficient and precise stability analysis method for milling process
verfasst von: Chunjing Liu
Dunbing Tang
Xingqiang Chen
Guohua Ding
Publikationsdatum: 19.02.2024
Verlag: Springer London
Erschienen in: The International Journal of Advanced Manufacturing Technology / Ausgabe 7-8/2024
Print ISSN: 0268-3768
Elektronische ISSN: 1433-3015
DOI: https://doi.org/10.1007/s00170-024-13101-0

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