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Machining Distortion Minimization of Monolithic Aircraft Parts Based on the Energy Principle

Longxin Fan, Hui Tian, Liang Li, Yinfei Yang, Nenggan Zhou, Ning He

2020Metals17 citationsDOIOpen Access PDF

Abstract

Machining distortion is a recurring problem in the machining of monolithic aircraft parts. This paper aims to study the machining distortion minimization of monolithic aircraft parts. Firstly, the energy principle of machining distortion was analyzed. Then, a rapid prediction model of the final part distortion for beam parts was proposed based on the equivalent stress, and the initial bending strain energy contained in the final part was used to characterize the bending distortion risk of the final part. Numerical simulation and milling experiments verified the effectiveness of the proposed prediction model. The relative error between the experimental and calculated results does not exceed 26.5%. Finally, the influence of initial residual stress fluctuation, part geometry and the part location on part distortion was analyzed from the energy point of view. The obtained results indicated that the expected final part distortion can be minimized by adjusting these three factors.

Topics & Concepts

Distortion (music)MachiningBendingResidual stressPoint (geometry)Structural engineeringMinificationEnergy minimizationMechanical engineeringEnergy (signal processing)Stress (linguistics)Materials scienceComputer scienceEngineeringGeometryMathematicsComposite materialMathematical optimizationElectronic engineeringPhysicsLinguisticsPhilosophyStatisticsQuantum mechanicsCMOSAmplifierAdvanced machining processes and optimizationManufacturing Process and OptimizationAdvanced Surface Polishing Techniques
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