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Article

Study on the Forming Quality and Controllability of Ultrasonic-Assisted Spinning of V-Grooves

1
School of Marine Equipment and Mechanical Engineering, Jimei University, Xiamen 361021, China
2
School of Marine Mechatronics, Xiamen Ocean Vocational College, Xiamen 361000, China
*
Author to whom correspondence should be addressed.
Coatings 2026, 16(7), 796; https://doi.org/10.3390/coatings16070796
Submission received: 21 May 2026 / Revised: 25 June 2026 / Accepted: 29 June 2026 / Published: 3 July 2026
(This article belongs to the Section Metal Surface Process)

Abstract

Spinning forming is a metal plastic processing technology used to manufacture thin-walled hollow axisymmetric parts. However, during the spinning process, issues such as excessive local loads can induce non-uniform plastic deformation, leading to poor forming quality. In this study, orthogonal experiments were conducted on V-groove specimens made of SPHE steel under different ultrasonic power (with constant static load and spinning passes) and different numbers of spinning passes (with constant static load and ultrasonic power). For each parameter set, three specimens were tested, and finite element analysis using Abaqus.2021 software was performed for verification. The study explored the influence of introducing ultrasonic-assisted spinning during spinning on the forming quality of the V-groove, as well as the effects of controlling ultrasonic power and spinning passes. By combining the ultrasonic-assisted spinning experiments with finite element simulation results, the effects and relative significance of different ultrasonic power and different spinning passes on forming quality were evaluated through analyses of V-groove depth, inclination angle, microhardness, microstructure, and roughness. The results show that ultrasonic-assisted spinning significantly improves the forming depth of the V-groove. Under 50% ultrasonic power, the groove depth increased from 434.54 μm under the reference condition to 598.09 μm. Meanwhile, the groove angle decreased from 63.27° to 60.77°, indicating improvements in groove sharpness and geometric accuracy. When the spinning passes reached 54, the groove depth increased from 299.84 μm to 560.68 μm. The findings demonstrate that ultrasonic power and the spinning passes can effectively regulate the geometric morphology of the V-groove and improve the forming quality in ultrasonic-assisted spinning.
Keywords: spin molding; ultrasound-assisted; v-groove; ultrasonic power; spinning passes; molding quality spin molding; ultrasound-assisted; v-groove; ultrasonic power; spinning passes; molding quality

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MDPI and ACS Style

Lehao, J.; Xing, Y.; Xie, Z.; Chen, S.; Chen, W.; Li, Z.; Gao, J.; Xu, Z. Study on the Forming Quality and Controllability of Ultrasonic-Assisted Spinning of V-Grooves. Coatings 2026, 16, 796. https://doi.org/10.3390/coatings16070796

AMA Style

Lehao J, Xing Y, Xie Z, Chen S, Chen W, Li Z, Gao J, Xu Z. Study on the Forming Quality and Controllability of Ultrasonic-Assisted Spinning of V-Grooves. Coatings. 2026; 16(7):796. https://doi.org/10.3390/coatings16070796

Chicago/Turabian Style

Lehao, Jinyun, Yilong Xing, Zhenrong Xie, Shiqi Chen, Weiwen Chen, Zejie Li, Jiashun Gao, and Zhilong Xu. 2026. "Study on the Forming Quality and Controllability of Ultrasonic-Assisted Spinning of V-Grooves" Coatings 16, no. 7: 796. https://doi.org/10.3390/coatings16070796

APA Style

Lehao, J., Xing, Y., Xie, Z., Chen, S., Chen, W., Li, Z., Gao, J., & Xu, Z. (2026). Study on the Forming Quality and Controllability of Ultrasonic-Assisted Spinning of V-Grooves. Coatings, 16(7), 796. https://doi.org/10.3390/coatings16070796

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