Ketergantungan dalam negeri terhadap produk impor, terutama untuk produk-produk mekanikal masih cukup tinggi, untuk mengurangi ketergantungan tersebut maka rekayasa peniruan (reverse engineering) dipandang penting untuk dilakukan. Pada penelitian ini telah dilakukan rekayasa peniruan pada produk rotary joint. Rotary joint adalah komponen yang digunakan untuk mengalirkan fluida dari jalur suplai stasioneri ke bagian yang berputar pada  berbagai mesin produksi dengan tujuan untuk untuk mendinginkan, memanaskan, dan mentransfer daya pneumatik atau hidraulik. Tahapan Rekayasa peniruan yang dilakukan meliputi pengumpulan informasi produk, analisa fungsi rakitan dan sub rakitan secara komprehensip, pengukuran dan pemodelan geometrik, analisa keberfungsian, keandalan,  pembuatan  produk hasil peniruan dan  pengujian. Hasil penelitian ini menunjukkan bahwa secara teknis rotary joint dapat dibuat di dalam negeri dan hasil uji kinerja rotary joint hasil rekayasa peniruan berfungsi sesuai dengan harapan pada saat digunakan pada mesin Double Drum Dryer dalam proses pembuatan produk makanan instan.

Adate, P., & Pandhare, A. (2017). Review on study of Reverse Engineering in Mechanical. June, 464–470.

Ali, S., Durupt, A., & Andragna, P. A. (2013). Reverse Engineering for Manufacturing Approach : Based on the Combination of 3D and knowledge. Springer.

Anwer, N., & Mathieu, L. (2016). From reverse engineering to shape engineering in mechanical design. CIRP Annals - Manufacturing Technology, 65(1), 165–168. https://doi.org/10.1016/j.cirp.2016.04.052

Ashby, M. F. (1999). Material Selection in Mechanical Design. In Elsevier (Vol. 2). http://www.knovel.com/web/portal/browse/display?_EXT_KNOVEL_DISPLAY_bookid=1472%5Cnhttp://video.yahoo.com/watch/111582/992708

Bagci, E. (2009). Reverse engineering applications for recovery of broken or worn parts and re-manufacturing: Three case studies. Advances in Engineering Software, 40(6), 407–418. https://doi.org/10.1016/j.advengsoft.2008.07.003

Durupt, A., Remy, S., Ducellier, G., & Derigent, W. (2008). A new knowledge based approach the reverse engineering of a product. Proceedings DESIGN 2008, the 10th International Design Conference, 753–760.

Goilkar, S. S., & Hirani, H. (2009). Design and development of a test setup for online wear monitoring of mechanical face seals using a torque sensor. Tribology Transactions, 52(1), 47–58. https://doi.org/10.1080/10402000802163017

Ives, A., & Lahre, K. (2015). Basic of Self supported Joint Installation on Steam Heated Dryer.

Joint, P. (2020). Rotary Joint Swivel Joint.

Kareem, B., Agboola, O. O., Ikubanni, P. P., & Akhator, F. I. (2019). Implementation of reverse engineering and re-engineering in the development of pin valve for the nozzle of man diesel trucks. International Journal of Engineering Research and Technology, 12(10), 1735–1738.

Kenji, C., & Surdia, T. (2006). Teknik Pengecoran Logam. PT Padnya Paramita.

Kovács, I., Várady, T., & Salvi, P. (2015). Applying geometric constraints for perfecting CAD models in reverse engineering. Graphical Models, 82, 44–57. https://doi.org/10.1016/j.gmod.2015.06.002

Matin, I., Vukelic, D., Hadzistevic, M., Strbac, B., & Lukic, D. (2019). An integrated approach for design and manufacture of plastic products. Applied Engineering Letters, 4(1), 1–5. https://doi.org/10.18485/aeletters.2019.4.1.1

Newnan, D. G., Eschenbach, T. G., & Lavelle, J. P. (2009). Eleventh Edition. Oxford New York.

Rathore, & Jain. (2014). Reverse Engineering Applications in Manufacturing Industries: an Overview. https://doi.org/10.2507/daaam.scibook.2014.45

Rochim, T. (2021). Tujuh Langkah Dalam Rekayasa Peniruan. FTMD ITB.

Saldierna, M. L. C. (2015). A Collection of Resources for the Study of Educational Reverse Engineering Activities in Engineering Design Education.

Silalahi, S. A. F. (2014). Kondisi Industri Manufaktur Indonesia Dalam Menghadapi Globalisasi. Jurnal Ekonomi Dan Kebijakan Publik, 5(1), 1–13.