ARTIFICIAL NEURAL NETWORK MODELLING OF THE SURFACE ROUGHNESS OF FRICTION STIR WELDED AA7020-T6 ALUMINUM ALLOY
Abdullah, I., S. Mohammed, S., A. Abdallah, S. (2020). ARTIFICIAL NEURAL NETWORK MODELLING OF THE SURFACE ROUGHNESS OF FRICTION STIR WELDED AA7020-T6 ALUMINUM ALLOY. EKB Journal Management System, 46(1), 1-5. doi: 10.21608/erjsh.2020.228168
I. Abdullah; S. S. Mohammed; S. A. Abdallah. "ARTIFICIAL NEURAL NETWORK MODELLING OF THE SURFACE ROUGHNESS OF FRICTION STIR WELDED AA7020-T6 ALUMINUM ALLOY". EKB Journal Management System, 46, 1, 2020, 1-5. doi: 10.21608/erjsh.2020.228168
Abdullah, I., S. Mohammed, S., A. Abdallah, S. (2020). 'ARTIFICIAL NEURAL NETWORK MODELLING OF THE SURFACE ROUGHNESS OF FRICTION STIR WELDED AA7020-T6 ALUMINUM ALLOY', EKB Journal Management System, 46(1), pp. 1-5. doi: 10.21608/erjsh.2020.228168
Abdullah, I., S. Mohammed, S., A. Abdallah, S. ARTIFICIAL NEURAL NETWORK MODELLING OF THE SURFACE ROUGHNESS OF FRICTION STIR WELDED AA7020-T6 ALUMINUM ALLOY. EKB Journal Management System, 2020; 46(1): 1-5. doi: 10.21608/erjsh.2020.228168

ARTIFICIAL NEURAL NETWORK MODELLING OF THE SURFACE ROUGHNESS OF FRICTION STIR WELDED AA7020-T6 ALUMINUM ALLOY

Engineering Research Journal (Shoubra)
Volume 46, Issue 1, October 2020, Pages 1-5    PDF (521.65 K)
Document Type: Research articles
DOI: 10.21608/erjsh.2020.228168
Authors
I. Abdullah1; S. S. Mohammed2; S. A. Abdallah2
1Mechanical Engineering Department, Shoubra Faculty of Engineering, Benha University, Cairo, Egypt
2Mechanical Engineering Department, Shoubra Faculty of Engineering, Benha University, Cairo, Egypt.
Abstract
In the present investigation, lap joints of the AA7020-T6 aluminum sheets were joined using friction stir welding (FSW). The AA7020-T6 sheets has 3 mm thickness. The FSW was carried out at three different tool rotational speeds of 1200 rpm, 1400 rpm and 1600 rpm; and three different welding speeds of 20 mm/min, 40 mm/min, and 60 mm/min. During FSW, the tool tilt angle and plunging depth were kept constant at 3o and 0.5 mm, respectively. The FSW was performed using a tool with a tapered pin profile and a flat shoulder. The surface quality of the FSW specimens was evaluated by the arithmetic average roughness value (Ra). The results revealed that increasing of the tool rotational speed and/or the welding speed increases the surface roughness of AA7020-T6 lap joints. The developed artificial neural network (ANN) model showed a good agreement between the predicted and experimental results. The ANN model exhibited mean relative error (MRE) of 3.8%.
Keywords
Friction stir welding; Artificial neural network; Surface roughness; Design of Experiments
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