Optimization of Charpy Impact Test in FDM Method with Artificial Intelligence
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Abstract
In the study, the rates of impact energy absorption of ABS fractures produced by the FDM method were examined. Charpy impact test results were determined using layer distribution, printing speed, support angle, build orientation, notch type, and unfill type. Box-behnken experimental design design in the study. Notch impact samples are produced on an ABS 3D printer. Then, tests were realized on the impact test device. Data were evaluated using the Minitab 21 program. Later, DL and ELM file models were created based on this development. The best results were obtained as 0.844 kJ/m with a thickness of the layer of 0.09 mm. At 60 mm/s printing speed and 30° support angle, the impact energy absorption is 0.803 kJ/m2. The extinction edge of the highest impact energy is 0.841 kj/m . The most effective impact absorption was obtained as 0.827 kJ/m in the U notch type. In the full infill type, impact energy absorption is obtained as 0.777 kJ/m . In DL, man is the programming and tanh is the activation function. DL, MSE value was calculated as 0.000923, r was calculated as 0.97427. Sigmoid activation functions at the input and linear activation functions at the output were also used in ELM.
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