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Optimization of Process Parameters for Better Surface Morphology of Electrical Discharge Machining-Processed Inconel 825 Using Hybrid Response Surface Methodology-Desirability Function and Multi-objective Genetic Algorithm Approaches

Pankaj Sharma, Kamal Kishore, Vishal Singh, Manoj Kumar Sinha

2023Journal of Materials Engineering and Performance27 citationsDOI

Topics & Concepts

Response surface methodologyElectrical discharge machiningMaterials scienceInconelSurface roughnessIndentation hardnessDesign of experimentsMachiningBox–Behnken designDuty cycleGenetic algorithmOrthogonal arraySurface integrityBiological systemMechanical engineeringTaguchi methodsComposite materialVoltageComputer scienceMetallurgyMathematicsMachine learningStatisticsMicrostructureEngineeringAlloyBiologyElectrical engineeringAdvanced Machining and Optimization TechniquesAdvanced machining processes and optimizationAdditive Manufacturing and 3D Printing Technologies
Optimization of Process Parameters for Better Surface Morphology of Electrical Discharge Machining-Processed Inconel 825 Using Hybrid Response Surface Methodology-Desirability Function and Multi-objective Genetic Algorithm Approaches | Litcius