Abstract
Friction Stir Welding (FSW) has revolutionized metal joining in manufacturing by offering robust joints without defects. This study examines FSW using specific parameters and evaluates its impact on mechanical properties and microstructure. Through rotational speed (2192 RPM), welding speed (36.3 mm/minute), tool tilt (3.4°), and concave shoulder angle (9°), FSW was applied to predetermined metal materials. Impact and Vickers tests were conducted post-welding to assess toughness, surface hardness, and microstructural changes. Results highlight the significant influence of FSW parameters on material properties, providing insights for optimizing efficiency and quality in the manufacturing industry. The study's findings contribute to addressing knowledge gaps and advancing FSW applications in industrial settings.
Highlight:
- Precise Parameters: Control for strong joints in manufacturing.
- Toughness Evaluation: Assessing joint resilience under dynamic loads.
- Industry Optimization: Enhancing efficiency and quality in metal joining processes.
Keywoard: FSW, Manufacturing, Mechanical Properties, Optimization, Impact Testing
References
A. Wibowo et al., “Pengaruh Frekuensi Pulse Pengelasan GTAW pada Aluminium Alloy 6061,” J. Tek. Mesin, vol. 11, no. 1, pp. 59–62, 2019.
P. Sadeesh et al., “Studies on Friction Stir Welding of AA 2024 and AA 6061 Dissimilar Metals,” Procedia Eng., vol. 75, pp. 145–149, 2013.
S. R. Yazdi and B. Beidokhti, “Pinless Tool for FSSW of AA 6061-T6 Aluminum Alloy,” vol. 267, no. November, pp. 44–51, 2019.
W. Elbar, K. Tampubolon, U. Pembinaan, and M. Indonesia, “Pengaruh Campuran Silikon pada Aluminium terhadap Kekerasan dan Tingkat Keausannya: Effect of Silicone Alloys on Aluminum on Hardness and Wear Rates,” J. Mechanical and Materials Engineering, vol. 4, no. 2, pp. 183–196, 2020.
U. B. Aji Nurhafid, S. Jokosisworo, “Analisa Pengaruh Perbedaan Feed Rate terhadap Kekuatan Tarik dan Impak Aluminium 6061 Metode Pengelasan Friction Stir Welding,” J. Tek. Perkapalan, vol. 5, no. 2, pp. 473–481, 2018.
A. Sudrajat and J. Rotor, “Analisis Sifat Mekanik Hasil Pengelasan Aluminium AA 1100 dengan Metode Friction Stir Welding (FSW),” vol. 5, pp. 8–17, 2012.
A. F. Fandi, “Pengaruh Arah Putaran Tool terhadap Sifat Mekanik Hasil Sambungan Aluminium Friction Stir Welding,” 2018.
Wartono and H. Kuntara, “Pengaruh Putaran Tools terhadap Struktur Mikro dan Sifat Mekanis Sambungan Friction Stir Welding pada Aluminium Paduan 6061,” Rekayasa Teknologi Industri dan Informasi, pp. 1039–1044, 2017.
M. A. Dewantara, H. Yudo, D. T. Perkapalan, F. Teknik, U. Diponegoro, K. Tarik, “Analisa Pengaruh Gas Pelindung Argon Grade A dan Grade C terhadap Kekuatan Impact dan Tekuk Sambungan Butt Joint pada Aluminium 5083,” J. Tek. Perkapalan, vol. 5, no. 2, pp. 367–373, 2017.
P. A. Hutagaol, J. Junaidi, et al., “Analisa Heat Treatment terhadap Kekuatan Uji Impact Aluminium 5083,” Semin. Nas. Tek. …, pp. 1–4, 2022.
Y. Handoyo, “Perancangan Alat Uji Impak Metode Charpy Kapasitas 100 Joule,” J. Ilm. Tek. Mesin, vol. 1, no. 2, pp. 45–53, 2013.
I. P. Lokantara, “Analisis Kekuatan Impact Komposit Polyester-Serat Tapis Kelapa dengan Variasi Panjang dan Fraksi Volume Serat yang Diberi Perlakuan NaOH,” Dinamika Teknik Mesin, vol. 2, no. 1, pp. 47–54, 2012.
F. O. Momow and R. Mufidin, “Studi Pengaruh Gerak Voeding terhadap Kekuatan Tarik dan Ketangguhan Impak Sambungan Friction Stir Welding (FSW) pada Aluminium Paduan,” vol. 2022, no. November, pp. 568–577, 2022.
K. Tarik, D. A. N. Impak, P. Sambungan, F. S. Welding, “Aluminium 6061 Hasil Pengelasan Double Sided,” vol. 7, no. 4, pp. 294–302, 2019.
M. Budi et al., “Pengaruh Feed Rate dan Kecepatan Putar Pin Tool Friction Stir Welding (FSW) terhadap Kekuatan Tarik dan Kekerasan Aluminium 5052,” vol. 2, no. 2, pp. 83–95, 2018.
ASM International, ASM Handbook Volume 3: Alloy Phase Diagrams, 1998.
H. S. Tira, A. Natsir, T. Putranto, “Kinerja Modul Surya Melalui Variasi Solar Collector dan Kecepatan Angin,” Dinamika Teknik Mesin, vol. 10, no. 1, p. 25, 2020.
A. Klevinskis and V. Bučinskas, “Analysis of a Flat-Plate Solar Collector,” Mokslas - Lietuvos ateitis, vol. 3, pp. 39–43, 2011.
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