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The Potential of Using Unmanned Aerial Vehicles for Sea Patrol: Case Study at Royal Malaysian Navy, Lumut Base Read chapter Read first chapter

2021 | OriginalPaper | Chapter

29. Experimental Study of Friction Stir Welding on AA5052 (1.5 mm) Thin Plate Butt Joints

Authors : Tuan Muhammad Nurkholish Tuan Anuwa, Azman Ismail, Bakhtiar Ariff Baharudin, Fauziah Ab Rahman

Published in: Advanced Engineering for Processes and Technologies II

Publisher: Springer International Publishing

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Abstract

In this study, a detailed practical investigation to determine the tensile strength of a thin aluminum plate joint and to produce a good thin aluminum plate joint. The purpose of this study is to run and find the right formula of rotational speed (rpm) and travel speed (mm/min) for the friction stir welding (FSW) process on an aluminum thin plate AA5052 1.5 mm plate joint. The optimum parameters for this research are at 910 rpm rotation speed with 340 mm/min travel speed and 2° angle. The tensile strength that had been collected can achieve up to 85% of the base metal (BM). The tool geometry was design with a pin diameter of 1.4 mm, shoulder diameter of 6 mm, and length of 20 mm. The results show that FSW improves the mechanical properties of welded joints compared to other welding processes.

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previous chapter Optimization of Welding Parameters for Self-Support Friction Stir Welding (SS-FSW) on AA6063 Pipe Joints
next chapter 5G: Performance on the Enhancement of the Asymmetric Arithmetic Coding with Space Time Frequency Block Coding MIMO
Literature
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Ismail, A., Awang, M.: Surface hardness of friction stir welded AA6063 pipe. MATEC Web Conf. 13, 2–6 (2014)CrossRef
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Patel, A.R., Kotadiya, D.J., Kapopara, J.M., Dalwadi, C.G., Patel, N.P., Rana, H.G.: Investigation of mechanical properties for hybrid joint of Aluminium to polymer using friction stir welding (FSW). Mater. Today 5(2), 4242–4249 (2018)
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Metadata
Title
Experimental Study of Friction Stir Welding on AA5052 (1.5 mm) Thin Plate Butt Joints
Authors
Tuan Muhammad Nurkholish Tuan Anuwa
Azman Ismail
Bakhtiar Ariff Baharudin
Fauziah Ab Rahman
Copyright Year
2021
Book
Advanced Engineering for Processes and Technologies II

Print ISBN: 978-3-030-67306-2

Electronic ISBN: 978-3-030-67307-9

Copyright Year: 2021

DOI
https://doi.org/10.1007/978-3-030-67307-9_29

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