Microstructure Analysis of Friction Stir Welding of Aluminum Alloy 6061 Coated with Copper Nanofilm
| Authors | Sumanta Kumar Tripathy1 , Sanjay Kumar2, Azeez Mohammed Ali3 |
| Affiliations |
1Associate Professor, Department of Physics, Gayatri Vidya Parishad College of Engineering (A), Visakhapatnam, India 2Associate Professor, Department of Mechanical Engineering, Gayatri Vidya Parishad College of Engineering (A), Visakhapatnam, India 3PG Scholar, Department of Mechanical Engineering, Gayatri Vidya Parishad College of Engineering (A), Visakhapatnam, India |
| Е-mail | tripathy@gvpce.ac.in |
| Issue | Volume 13, Year 2021, Number 4 |
| Dates | Received 15 June 2021; revised manuscript received 15 August 2021; published online 20 August 2021 |
| Citation | Sumanta Kumar Tripathy, Sanjay Kumar, et al., J. Nano- Electron. Phys. 13 No 4, 04037 (2021) |
| DOI | https://doi.org/10.21272/jnep.13(4).04037 |
| PACS Number(s) | 68.37.Hk, 68.55. – a, 78.40. – q |
| Keywords | Copper nanofilm, Friction stir welding, Grain size (4) , Rotational speed, Welding speed. |
| Annotation |
This work presents the effect of various input process parameters on grain size of aluminum alloy 6061 coated with copper nanofilm in friction stir welding. In this experiment, copper nanofilm is coated with thermal evaporation unit on the sides of aluminum alloy plates. Copper film is deposited inside the vacuum chamber at a pressure of 4 10 – 4 Torr and a deposition rate of 4-6 Å per sec. The substrate temperature is maintained at 40 to 45 C. The distance between the boat and the substrate is maintained at 10 cm. Copper nanofilms with a thickness of 300, 600 and 900 nm are fabricated on various aluminum alloy plates. Friction stir welding machine is used to perform the butt welding on aluminum alloy 6061 coated with copper nanofilm with different thickness. Welding speed, tool rotational speed and copper nanofilm coating thickness are considered as input process parameters, and grain size viz. grain area and grain perimeter as output parameters. Based on three input parameters, each at three levels, nine experiments are carried out using Taguchi L9 orthogonal array approach. Regression model is also developed to predict the grain size of the microstructure. Grain size of these samples is noted by using image analysis software with inverted metallurgical microscope at 200X magnification. It is observed that copper nanofilm coating has a significant impact on the grain area and grain perimeter. By increasing the nanofilm thickness from 600 to 1800 nm, the mean grain area decreases by 20.83 m2 and simultaneously the mean grain perimeter decreases by 8.57 m. Also, the copper nanofilm coating has the maximum effect on the grain size, followed by welding speed and tool rotational speed. By increasing the welding speed from 30 to 60 mm/min, the grain perimeter decreases by 6.47 m, whereas the rotational speed has a mixed response. |
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