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Boundary fluid constraints during electrochemical jet machining of large size emerging titanium alloy aerospace parts in gas–liquid flows: Experimental and numerical simulation

Yang Liu, Ningsong Qu, Hansong Li, Zhaoyang Zhang

2024Chinese Journal of Aeronautics21 citationsDOIOpen Access PDF

Abstract

Large size titanium alloy parts are widely used in aerospace. However, they are difficult to manufacture using mechanical cutting technology because of severe tool wear. Electrochemical jet machining is a promising technology to achieve high efficiency, because it has high machining flexibility and no machining tool wear. However, reports on the macro electrochemical jet machining of large size titanium alloy parts are very scarce, because it is difficult to achieve effective constraint of the flow field in macro electrochemical jet machining. In addition, titanium alloy is very sensitive to fluctuation of the flow field, and a turbulent flow field would lead to serious stray corrosion. This paper reports a series of investigations of the electrochemical jet machining of titanium alloy parts. Based on the flow analysis and experiments, the machining flow field was effectively constrained. TB6 titanium alloy part with a perimeter of one meter was machined. The machined surface was smooth with no obvious machining defects. The machining process was particularly stable with no obvious spark discharge. The research provides a reference for the application of electrochemical jet machining technology to achieve large allowance material removal in the machining of large titanium alloy parts.

Topics & Concepts

AerospaceMachiningJet (fluid)Titanium alloyMaterials scienceAlloyBoundary (topology)TitaniumElectrochemistryElectrochemical machiningComputational fluid dynamicsMechanical engineeringMetallurgyMechanicsAerospace engineeringEngineeringPhysicsElectrodeMathematicsMathematical analysisQuantum mechanicsElectrolyteAdvanced Machining and Optimization TechniquesErosion and Abrasive MachiningAdvanced machining processes and optimization
Boundary fluid constraints during electrochemical jet machining of large size emerging titanium alloy aerospace parts in gas–liquid flows: Experimental and numerical simulation | Litcius