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The International Journal of Advanced Manufacturing Technology

Erschienen in:

21.05.2021 | ORIGINAL ARTICLE

Milling vibration control of semiconical shell workpiece with multiple distribution tuned mass dampers

verfasst von: Peng Qin, Yunan Liu, Min Wang, Yanlin Zhang

Erschienen in: The International Journal of Advanced Manufacturing Technology | Ausgabe 7-8/2021

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Abstract

Considering the complexity geometry and thin wall feature, the semiconical shell workpiece will induce complicated and intense vibration in the milling process leading to poor surface quality and large machining deformation. In order to suppress the vibration, this paper focused on the semiconical shell workpiece and proposed a multiple distribution tuned mass damper (MDTMD) vibration control technique by attaching a series of optimized tuned mass dampers (TMD) to each optimal position of workpiece. The vibration characteristics and modal shapes of workpiece were obtained with the use of spectro-geometric-Ritz method (SGM) and the dynamic model of workpiece with MDTMD was established. A novel design of TMD was proposed. The optimal parameters and positions of each TMD were determined simultaneously using numerical optimization algorithm based on the modal summation method. Theoretical studies and experiment results shown that the proposed MDTMD method can remarkably improve the dynamic stiffness of the workpiece. The performance of vibration suppression is further verified in the impact tests and milling experiments.

Vorheriger Artikel Numerical and experimental verification of an iterative coupling method for analyzing the Lorentz-force-driven sheet metal stamping process

Nächster Artikel Milling force modeling for disc milling cutter of indexable three-sided inserts considering tool runout

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Titel: Milling vibration control of semiconical shell workpiece with multiple distribution tuned mass dampers
verfasst von: Peng Qin
Yunan Liu
Min Wang
Yanlin Zhang
Publikationsdatum: 21.05.2021
Verlag: Springer London
Erschienen in: The International Journal of Advanced Manufacturing Technology / Ausgabe 7-8/2021
Print ISSN: 0268-3768
Elektronische ISSN: 1433-3015
DOI: https://doi.org/10.1007/s00170-020-06427-y

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