Multi-objective optimization design and performance evaluation of a novel flexure-based tri-axial servo cutting system

Micro/nano structured surfaces with sophisticated geometric dimensions and shapes have broad application prospects in energy, optics and other aspects. However, the flexible manufacturing with low cost is still a challenge. In this study, a novel flexure-based tri-axial servo cutting system (FTSCS)...

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Bibliographic Details
Published in:Journal of manufacturing processes 2022-12, Vol.84, p.1133-1149
Main Authors: Yu, Haiqiang, Han, Jinguo, Li, Shiyu, Han, Xinzhe, Liu, Yanhou, Wang, Jinhui, Lin, Jieqiong
Format: Article
Language:English
Subjects:
Compliant mechanism
Fast tool servo
Micro/nano manufacturing
Optimization design
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Summary:Micro/nano structured surfaces with sophisticated geometric dimensions and shapes have broad application prospects in energy, optics and other aspects. However, the flexible manufacturing with low cost is still a challenge. In this study, a novel flexure-based tri-axial servo cutting system (FTSCS) was developed for micro/nano manufacturing considering the tool position and posture modulation ability. An X-type compliant mechanism is designed based on trapezoidal leaf spring, right circular flexure hinge and leaf spring. The FEA-based multi-objective optimization was conducted to determine the structural dimension parameters of the X-type compliant mechanism. In addition, the analytical model of compliance is established and the dynamic performance is tested. The static and the dynamic results have good agreement with the results of FEA. Meanwhile, the kinematic performance was analyzed to investigate the modulation flexibility and stability. Finally, the hierarchical micro-grooves and micro-pillars were fabricated on the end surface of 6061 Al round rod by the prototype to validate the feasibility of the proposed FTSCS. The wettability of the workpiece surface was measured before and after manufacturing. The measurement results show that the hydrophilic characteristic before manufacturing transform to hydrophobic characteristic due to the exist of micro-grooves.
ISSN:1526-6125
2212-4616
DOI:10.1016/j.jmapro.2022.11.012