2021
DOI: 10.1007/s11665-021-05536-3
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Research on Neural Network Prediction of Multidirectional Forging Microstructure Evolution of GH4169 Superalloy

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Cited by 8 publications
(3 citation statements)
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“…In this work, the feature selection techniques include genetic algorithm (GA), [23] backward elimination (BE), [24] and forward selection (FS). [25] The modeling algorithms include support vector regression (SVR), [26][27] artificial neural network (ANN), [28][29] and partial least squares (PLS). [30] Therefore, GA, BE, and FS nested SVR, ANN, and PLS were adopted for feature selection, respectively.…”
Section: Feature Selectionmentioning
confidence: 99%
“…In this work, the feature selection techniques include genetic algorithm (GA), [23] backward elimination (BE), [24] and forward selection (FS). [25] The modeling algorithms include support vector regression (SVR), [26][27] artificial neural network (ANN), [28][29] and partial least squares (PLS). [30] Therefore, GA, BE, and FS nested SVR, ANN, and PLS were adopted for feature selection, respectively.…”
Section: Feature Selectionmentioning
confidence: 99%
“…These models have been extensively employed in simulation models for manufacturing processes in which high processing temperatures are involved. For example, based on the hot compression experimental data of In718 superalloy, Jin et al [ 19 , 20 ] established a constitutive equation based on the Sellars–Tegart model to predict the flow stress of In718 at high temperatures in their simulation of the forging processes. Wang et al [ 21 ] also used the Sellars–Tegart model to predict the characterization of residual stresses and grain structures after hot forging of In718 alloy.…”
Section: Introductionmentioning
confidence: 99%
“…The cellular automata (CA) [ 12 , 13 , 14 ] method can be used, for example, for simulation of dynamic recrystallization behavior under hot isothermal compressions for as-extruded 3Cr20Ni10W2 heat-resistant alloy [ 12 ], modeling of solidification microstructure evolution in laser powder bed fusion-fabricated 316L stainless steel [ 13 ], simulation of coupled hydrogen porosity, and microstructure during solidification of ternary aluminum alloys [ 14 ]. Other examples of used numerical methods to model the evolution of microstructure in materials are analysis of metal extrusion by the finite volume method (FVM) [ 15 ], prediction of multidirectional forging microstructure evolution of GH4169 superalloy by the neural network [ 16 ], and prediction of microstructure evolution with convolutional recurrent neural networks [ 17 ]. Multiscale models, which are a combination of several methods (for example, finite element and cellular automata or cellular automata and finite volume), are also used.…”
Section: Introductionmentioning
confidence: 99%