References
- 1. Croatian Register of Shipping, “Rules for the Classification of Ships, Part 7-Machinery Installation (Amd 1, 2021),” Croatian Register of Shipping, 2021. [Online]. Available: http://www.crs.hr/en-us/links/rulesfortheclassification.aspx. [Accessed: April 15th, 2021].
- 2. International Association of Classification Societies, “UR M68 Dimensions of propulsion shafts and their permissible torsional vibration stresses (Rev. 2, April 2015),” International Association of Classification Societies, 2015. [Online]. Available: https://www.iacs.org.uk/publications/unified-requirements/ur-m/ur-m68-rev2-cln/. [Accessed: April 15th, 2021]
- 3. Y. Batrak, “Torsional vibration calculation issues with propulsion systems,” SKF Solution Factory-Marine Services-Shaft Designer, 2010. [Online]. Available: http://www.shaftdesigner.com/support/papers.html. [Accessed: April 15th, 2021]
- 4. W. K. Wilson, “Practical Solution of Torsional Vibration Problems, 3rd edition,” London: Chapman & Hall Ltd, 1963.
- 5. Lloyd’s Register of Shipping, “Rules and Regulations for the Classification of Ships, Part 5 - Main and Auxiliary Machinery,” London: Lloyd’s Register of Shipping, 1968.
- 6. M. Butković, and Z. Jeličić, “Computer calculation of torsional vibrations for oil engine installations,” Technical Information of Jugoturbina, vol. 2-4, pp. 26-35, 1969.
- 7. K. E. Hafner, and H. Maass, “Torsionschwingungen in der Verbrennungs-kraftmaschine,” Wien: Springer-Verlag, 1985.
- 8. G. Magazinović, “User’s manual for TorViC v1.1: A computer system for propulsion system torsional vibration analysis,” Split: CADEA, 2000.
- 9. G. Magazinović, “Propulsion system forced torsional vibration calculation,” Shipyard Brodosplit, Split, Tech. Rep. 85N11706, 1988.
- 10. G. Magazinović, “Shaftline design considerations of five-cylinder low-speed propulsion plants,” in Proceedings I. of 13th Symposium on Theory and Practice of Shipbuilding Sorta’98, In memoriam prof. Leopold Sorta, 1998. pp. 141-151.
- 11. I. Senjanović, I. Ančić, G. Magazinović, N. Alujević, N. Vladimir, and D. S. Cho, “Validation of analytical methods for the estimation of the torsional vibrations of ship power transmission systems,” Ocean Engineering, vol. 184, pp. 107–120, 2019.10.1016/j.oceaneng.2019.04.016
- 12. L. Murawski and A. Charchalis, “Simplified method of torsional vibration calculation of marine power transmission system,” Marine Structures, vol. 39, pp. 335-349, 2014.10.1016/j.marstruc.2014.10.004
- 13. Verein Deutscher Ingenieure, “VDI 2039 Torsional vibration of drivelines - Calculation, measurement, reduction,” Düsseldorf: Verein Deutscher Ingenieure e.V, 2016.
- 14. ITI-Software GmbH, “SimulationX Library Manual-Torsional Vibration Analysis,” Dresden: ITI-Software GmbH, 2015.
- 15. J. Huet, “Torsional vibration analysis of marine installations,” Ship & Offshore, no. 5, pp. 18-20, 2011.
- 16. N. Vulić, Đ. Dobrota and I. Komar, “Damping and excitation in the torsional vibrations calculation of ship propulsion systems,” in Proceedings of the Contemporary Issues in Economy & Technology Conference, CIET 2016, Split, Croatia, 16th-18th June 2016. pp. 165-174.
- 17. N. Vulić, I. Komar and P. Jurišić, “Selection and evaluation of marine shafting torsional vibrations calculation software,” in Book of Proceedings of the 7th International Maritime Science Conference (IMSC 2017), Split, Croatia, 20th-21st April, 2017. pp. 221-229.
- 18. E. Sandberg, “Classification rules for torsional vibrations,” Hoevik: Det norske Veritas AS, 2005.
- 19. MAN Energy Solutions, “Torsional Vibration Calculation Program GTORSI, Version 3.6.4 External,” Copenhagen: MAN Energy Solutions, 2018.
- 20. M. Kramar, I. Beatović and N. Bobanac, “Shafting Torsional Vibration Test,” Shipbuilding Institute, Zagreb, Croatia, Tech. Rep. A100-LF01-02-071, 1999.