- International Scientific and Vocational Studies Journal
- Volume:3 Issue:1
- Modelling of One-directional Functionally Graded Circular Plates with Artificial Neural Network
Modelling of One-directional Functionally Graded Circular Plates with Artificial Neural Network
Authors : Didem ÇAKIR, Munise Didem DEMİRBAŞ
Pages : 42-50
View : 33 | Download : 12
Publication Date : 2019-06-30
Article Type : Research Paper
Abstract :In functionally graded materials insert ignore into journalissuearticles values(FGMs);, a combination is provided based on a volume ratio to prevent cracks in the interfaces of different materials and to prevent irregularities in the material transition region. The volumetric distribution between the components determines the mechanical performance of the FGMs. In this study, the thermo-mechanical behavior of the functionally graded circular plate insert ignore into journalissuearticles values(FGCPs); was investigated. The thermo-mechanical behavior depends on the equivalent stress values, and the equivalent stress values depend on the volumetric distribution of the components of the material, ie the compositional gradient upper values. Numerical analysis was performed for 60 different compositional gradient peaks in the range [0.01-5], models based on volumetric distribution were established and equivalent stress values were calculated. In the artificial neural network insert ignore into journalissuearticles values(ANN);, three different training algorithms, Levenberg-Marquardt, Gradient Descent With Momentum Backpropagation and Gradient Descent With Adaptive Learning Rate Backpropagation, were created and compared. According to the results of the analysis, Levenberg-Marquart algorithm showed an average success rate of over 90%. It is thought that the models installed in ANN will provide insight in determining the thermo-mechanical behavior of FGCPs and will save work-timei.Keywords : One Directional Functionally Graded Circular Plates, Artificial Neural Network, Training Algorithms, Finite Difference Method
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