Gesekan antara dua benda secara terus menerus mengakibatkan timbulnya keausan. Keausan yang terus menerus terbentuk mengakibatkan adanya kerusakan dan kecacatan pada material yang terkikis. Faktor yang akan menimbulkan terjadinya keausan dalam pemilihan material sangat mungkin menjadi bahan masukan dalam merencanakan suatu sistem propulsi. Tujuan dari penelitian ini adalah untuk mengetahui perilaku karakteitik keausan pada pasangan material kontak antara poros dengan seal akibat beban radial pada lingkungan air laut. Metode numerik dengan pendekatan Reynold dilakukan untuk mendapatkan  pendekatan secara matematis terhadap pertemuan kontak antara dua benda. Terjadinya keausan seal dan poros propeller juga disebabkan oleh kombinasi antara interaksi gesekan  terhadap pelumasan air laut. Beban radial pada putaran poros propeller menjadikan seal dan poros propeller mengalami keausan pada tingkat, volume, dan kedalaman yang berbeda-beda.

G. Kurnia, B. Yulianto, J. Jamari, A. P. Bayuseno, and M. Tauviqirrahman, “Contact mechanism between shaft, key, and crank in the sand sieving machine,” AIP Conference Proceedings, vol. 2262, no. 1, p. 30015, Sep. 2020.

D. D. Susilo, A. Widodo, T. Prahasto, and M. Nizam, “Remaining Useful Life Estimation of the Motor Shaft Based on Feature Importance and State-Space Model,” Lecture Notes in Mechanical Engineering. pp. 675–688, 2020.

W. Litwin, “Marine Propeller Shaft Bearings under Low-Speed Conditions: Water vs. Oil Lubrication,” Tribology Transactions, vol. 62, no. 5, pp. 839–849, 2019.

C. Zhang, D. Xie, Q. Huang, and Z. Wang, “Experimental research on the vibration of ship propulsion shaft under hull deformation excitations on bearings,” Shock and Vibration, vol. 2019, 2019.

S. Sitthipong, P. Towatana, A. Sitticharoenchai, and C. Meengam, “Abrasive Wear Behavior of Surface Hardfacing on Propeller ShaftsAISI 4140Alloy Steel,” in Materials Today: Proceedings, 2017, vol. 4, no. 2, pp. 1492–1499.

L. Piancastelli and S. Cassani, “Power Speed Reduction units for general aviation part 5: Housing/casing optimized design for propeller-driven aircrafts and helicopters,” ARPN Journal of Engineering and Applied Sciences, vol. 12, no. 2, pp. 602–608, 2017.

J. Huang, X. Zhou, J. Wang, X. Tang, and F. Kuang, “Influence of temperature on friction of polymeric materials in water,” Wear, vol. 426–427, pp. 868–876, 2019.

H. Jemii, A. Boubakri, A. Bahri, D. Hammiche, K. Elleuch, and N. Guermazi, “Tribological behavior of virgin and aged polymeric pipes under dry sliding conditions against steel,” Tribology International, vol. 154, 2021.

A. Barszczewska, E. Pitkowska, and W. Litwin, “Selected Problems of Experimental Testing Marine Stern Tube Bearings,” Polish Maritime Research, vol. 26, no. 2, pp. 142–154, 2019.

M. Wodtke and W. Litwin, “Water-lubricated stern tube bearing - experimental and theoretical investigations of thermal effects,” Tribology International, vol. 153, 2021.

A. Barszczewska, “Experimental Research on Insufficient Water Lubrication of Marine Stern Tube Journal Bearing with Elastic Polymer Bush,” Polish Maritime Research, vol. 27, no. 4, pp. 91–102, 2020.

H. Wang, Z. Liu, L. Zou, and J. Yang, “Influence of both friction and wear on the vibration of marine water lubricated rubber bearing,” Wear, vol. 376–377, pp. 920–930, 2017.

X.-H. Zhou, Z.-L. Liu, X.-K. Meng, and J. Liu, “Influence of mechanical sealing surface shape of marine stern shaft on sealing performance,” Jiaotong Yunshu Gongcheng Xuebao/Journal of Traffic and Transportation Engineering, vol. 16, no. 1, pp. 95–102.

W. Litwin and C. Dymarski, “Experimental research on water-lubricated marine stern tube bearings in conditions of improper lubrication and cooling causing rapid bush wear,” Tribology International, vol. 95, pp. 449–455, 2016.

Y.-G. Kim and U.-K. Kim, “Design and analysis of the propulsion shafting system in a ship with single stern tube bearing,” Journal of Marine Science and Technology (Japan), vol. 25, no. 2, pp. 536–548, 2020.

C. L. Saw, S. A. Syed Amear, C. G. Choong, and J. Shahril, “Seawater fluid structure interaction analysis through bearing liner structural modification approach,” ARPN Journal of Engineering and Applied Sciences, vol. 12, no. 4, pp. 1344–1347, 2017.

S. W., Gwidon, Wear, Materials, Mechanism. 2005.

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