[口头报告]Ultrathin Cu/FRP stack near-zero-damage drilling via hybrid novel rotating grid scanning with precise interface monitoring using acoustic emission technology

Ultrathin Cu/FRP stack near-zero-damage drilling via hybrid novel rotating grid scanning with precise interface monitoring using acoustic emission technology
编号:20 稿件编号:31 访问权限:仅限参会人 更新:2024-10-13 22:26:30 浏览:232次 口头报告

报告开始:2024年10月19日 11:45 (Asia/Shanghai)

报告时间:15min

所在会议:[S1] Surface Micro-Nano Fabrication and Additive Manufacturing » [S1A] Session 1A

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摘要
     The laminated material fiber-reinforced plastic (FRP)–thin metal–FRP is an important structure for aircraft intelligent skin. Blind hole manufacturing is a key process, but there are technological challenges in realizing almost no damage for thin metal with a thickness less than 10 μm. In this paper, hybrid novel rotating grid scanning (RGS) with precise FRP–Cu interface monitoring using acoustic emission (AE) technology is proposed to obtain a blind hole with near-zero ablation damage. The vibration behaviour of different materials during laser drilling, as well as the coupling effect of heat conduction and heat accumulation under different scanning methods, are described. The results show that the less than 10 μm copper foil in a 1.4 mm thick plate can be accurately identified by monitoring the AE signal, and RGS can effectively homogenize the heat accumulation in the drilling area to improve the quality of the blind holes. The laser is turned off under the guidance of precise interface extraction by AE technology to ensure that the copper foil can be exposed at the bottom of the blind hole. The copper foil at the bottom of the processed blind hole has no ablation damage, and the area of the exposed copper foil in the 3 mm diameter blind hole accounts for 90.8% of the total area. Compared to the default drilling method, the average taper of the blind holes is reduced by 75.3% (0.737 to 0.182), and the exposed copper foil area is increased by 157.4% (0.141 mm2 to 0.363 mm2). The best parameter for comprehensive drilling quality is Pg = 75%, and h = 10 μm, where the taper is reduced by 77.5% (0.773 to 0.174), and the exposed copper foil area is increased by 224.5% (0.165 mm2 to 0.536 mm2).
关键字
Laser drilling,FRP/Cu/FRP Laminated structure,Acoustic emission,Rotating grid scanning
报告人
Youmin Rong
associate professor Huazhong University of Science and Technology, China

稿件作者
Youmin Rong Huazhong University of Science and Technology
Long Chen Huazhong University of Science and Technology
Yu Huang Huazhong University of Science and Technology
Wenyuan Li Huazhong University of Science and Technology
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