Surface quality improvement under low-frequency and high-amplitude vibration in rotational vibration-assisted incremental sheet forming

Surface quality improvement under low-frequency and high-amplitude vibration in rotational vibration-assisted incremental sheet forming

Rotational Vibration-assisted Incremental Sheet Forming (RV-ISF) is a newly developed process variant that aims to improve upon conventional Incremental Sheet Forming (ISF), by the introduction of tool rotation-induced low-frequency and high-amplitude vibrations of deforming sheet. Different to exis...

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Bibliographic Details
Main Authors: Lewthwaite Oliver, Booth Jamie, Long Hui
Format: Article
Language:English
Published: EDP Sciences 2025-01-01
Series:MATEC Web of Conferences
Subjects:
incremental sheet forming
vibration-assisted processing
high-amplitude
surface roughness
Online Access:https://www.matec-conferences.org/articles/matecconf/pdf/2025/02/matecconf_iddrg2025_01039.pdf
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Summary:Rotational Vibration-assisted Incremental Sheet Forming (RV-ISF) is a newly developed process variant that aims to improve upon conventional Incremental Sheet Forming (ISF), by the introduction of tool rotation-induced low-frequency and high-amplitude vibrations of deforming sheet. Different to existing ultrasonic vibration-assisted ISF processes with high-frequency and low-amplitude, the RV-ISF process introduces localised sheet vibrations under frequency typically below 300 Hz and amplitude from 5 to 100 µm. In this paper, an experimental study of the RV-ISF tool rotation-induced sheet vibrations on surface roughness reduction is presented. A trapezium test geometry using a helical toolpath is made by conventional ISF and RV-ISF processes with AA5251-H22 1 mm thickness sheets. Tool forming forces are measured by a piezoelectric force transducer and sheet vibrations are obtained by an Eddy current sensor. Optical measurements of surface roughness show that the RV-ISF tool is capable of reducing roughness of the sheet significantly and consistently across the entire sidewall of the trapezium samples, with a Ra reduction of up to 80% when compared to the conventional ISF tool.
ISSN:2261-236X

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