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Experimental Study on Carbon Fiber-Reinforced Polymer Groove Machining by High-Power Water-Jet-Guided Laser

Shuo Meng, Yugang Zhao, Dandan Zhao, Chuang Zhao, Yu Tang, Zhihao Li, Hanlin Yu, Guangxin Liu, Chen Cao, Jianbing Meng

2023Micromachines15 citationsDOIOpen Access PDF

Abstract

Due to the excellent properties of carbon fiber-reinforced polymers (CFRPs), such as high strength and strong corrosion resistance, the traditional water-jet-guided laser (WJGL) technology has problems with fiber pull-out and has a small cutting depth when processing CFRPs. Therefore, in this study, we used high-power water-jet-guided laser (HPWJGL) technology to perform groove processing experiments on CFRPs. The effects of four key process parameters, high laser power, pulse frequency, feed rate, and water-jet pressure, on the cutting depth were investigated by a single-factor experiment. The formation mechanism of groove cross-section morphology and the processing advantages of high-power water-jet-guided lasers were analyzed. On this basis, the mathematical prediction model of cutting depth was established by using the response surface method (RSM), and the optimal combination of process parameters was obtained. The mathematical prediction model was verified by experiments, and the error was only 1.84%, indicating that the model had a high reference value. This study provides a reference for the precision machining of HPWJGL technology.

Topics & Concepts

Materials scienceGroove (engineering)MachiningJet (fluid)Fiber laserLaserCross section (physics)Response surface methodologyPower (physics)FiberComposite materialLaser cuttingMechanical engineeringOpticsComputer scienceMetallurgyMechanicsEngineeringMachine learningPhysicsQuantum mechanicsAdvanced Surface Polishing TechniquesLaser Material Processing TechniquesAdvanced machining processes and optimization
Experimental Study on Carbon Fiber-Reinforced Polymer Groove Machining by High-Power Water-Jet-Guided Laser | Litcius