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Investigation of Laser-Assisted Micro-Milling Process of Inconel 718

Haijun Zhang, Fei Chen, Zengqiang Li, Wangjie Hu, Tao Sun, Junjie Zhang

2023Journal of Manufacturing and Materials Processing12 citationsDOIOpen Access PDF

Abstract

While Inconel 718 is a widely used engineering material in industrial fields such as the aerospace and automotive fields, the machined surface integrity has a significant effect on the performance of its components and parts. In this work, the laser-assisted micro-milling process of Inconel 718 is investigated using a combination of experiments and finite element simulations. Firstly, an experimental platform of laser-assisted milling is built, and a three-dimensional thermal–mechanical coupled finite element model of laser-assisted milling of Inconel 718 is then established. Secondly, laser-assisted milling experiments and finite element simulations are conducted to investigate the impact of laser assistance on cutting force, chip morphology, tool wear and surface topography of Inconel 718 under a milling process. The results indicate that laser-assisted milling results in a moderate reduction in cutting forces while enhancing surface integrity and chip continuity, as compared with ordinary milling. Thirdly, orthogonal experiments of laser-assisted milling of Inconel 718 are conducted to discover the optimal processing parameters, including spindle speed, feed per tooth, milling depth and laser parameters. Finally, single-factor experiments are conducted to investigate the effect of laser power on cutting force, chip morphology, tool wear, groove burr and surface roughness in the laser-assisted milling of Inconel 718. And, a minimal surface roughness Sa of 137 nm for Inconel 718 accompanied by minimal tool wear is experimentally obtained via laser-assisted milling. These findings highlight the effectiveness of applying laser assistance in enhancing the machinability of difficult-to-machine materials for achieving desirable machined surface integrity.

Topics & Concepts

InconelMaterials scienceLaserTool wearSurface roughnessMachinabilityFinite element methodSurface finishSurface integrityLaser power scalingMachiningMechanical engineeringChip formationMetallurgyComposite materialOpticsStructural engineeringEngineeringAlloyPhysicsAdvanced machining processes and optimizationAdvanced Machining and Optimization TechniquesAdditive Manufacturing Materials and Processes
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