Journal of Intelligent Manufacturing and Special Equipment (Aug 2024)

Ultrasonic vibration cutting of advanced aerospace materials: a critical review of in-service functional performance

  • Zhenlong Peng,
  • Aowei Han,
  • Chenlin Wang,
  • Hongru Jin,
  • Xiangyu Zhang

DOI
https://doi.org/10.1108/JIMSE-12-2023-0016
Journal volume & issue
Vol. 5, no. 1
pp. 137 – 169

Abstract

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Purpose – Unconventional machining processes, particularly ultrasonic vibration cutting (UVC), can overcome such technical bottlenecks. However, the precise mechanism through which UVC affects the in-service functional performance of advanced aerospace materials remains obscure. This limits their industrial application and requires a deeper understanding. Design/methodology/approach – The surface integrity and in-service functional performance of advanced aerospace materials are important guarantees for safety and stability in the aerospace industry. For advanced aerospace materials, which are difficult-to-machine, conventional machining processes cannot meet the requirements of high in-service functional performance owing to rapid tool wear, low processing efficiency and high cutting forces and temperatures in the cutting area during machining. Findings – To address this literature gap, this study is focused on the quantitative evaluation of the in-service functional performance (fatigue performance, wear resistance and corrosion resistance) of advanced aerospace materials. First, the characteristics and usage background of advanced aerospace materials are elaborated in detail. Second, the improved effect of UVC on in-service functional performance is summarized. We have also explored the unique advantages of UVC during the processing of advanced aerospace materials. Finally, in response to some of the limitations of UVC, future development directions are proposed, including improvements in ultrasound systems, upgrades in ultrasound processing objects and theoretical breakthroughs in in-service functional performance. Originality/value – This study provides insights into the optimization of machining processes to improve the in-service functional performance of advanced aviation materials, particularly the use of UVC and its unique process advantages.

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