Abstract
Carbon fiber reinforced plastic (CFRP) composites are extremely attractive in the manufacturing of structural and functional components in the aircraft manufacturing field due to their outstanding properties, such as good fatigue resistance, high specific stiffness/strength, and good shock absorption. However, because of their inherent anisotropy, low interlamination strength, and abrasive characteristics, CFRP composites are considered difficult-to-cut materials and are prone to generating serious hole defects, such as delamination, tearing, and burrs. The advanced longitudinal–torsional coupled ultrasonic vibration assisted drilling (LTC-UAD) method has a potential application for drilling CFRP composites. At present, LTC-UAD is mainly adopted for drilling metal materials and rarely for CFRP. Therefore, this study analyzes the kinematic characteristics and the influence of feed rate on the drilling performance of LTC-UAD. Experimental results indicate that LTC-UAD can reduce the thrust force by 39% compared to conventional drilling. Furthermore, LTC-UAD can decrease the delamination and burr factors and improve the surface quality of the hole wall. Thus, LTC-UAD is an applicable process method for drilling components made with CFRP composites.
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Acknowledgements
The authors are grateful to the financial support from the National Key Research and Development Plan (Grant No. 2019YFA0708902), the Joint Foundation from Equipment Pre-research and Ministry of Education (Grant No. 6141A02022128), and the Doctoral Scientific Research Fund of NSFL (Grant No. 2019-BS-053).
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Ma, G., Kang, R., Dong, Z. et al. Hole quality in longitudinal–torsional coupled ultrasonic vibration assisted drilling of carbon fiber reinforced plastics. Front. Mech. Eng. 15, 538–546 (2020). https://doi.org/10.1007/s11465-020-0598-y
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DOI: https://doi.org/10.1007/s11465-020-0598-y