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2018 | 25 | Special Issue S1 |

Tytuł artykułu

Energy analysis of propulsion shaft fatigue process in rotating mechanical system. Part I. Testing significance of influence of shaft material fatigue excitation parameters

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
The article discusses the problem of mathematical modelling of energy conversion processes in a rotating mechanical system for the purpose of identifying fatigue states of propulsion shafts in this system. A simplified physical model of the analysed system, constructed in an appropriate scale, has made the basis for the experimental research. The research programme took into consideration mechanical fatigue excitation of the model propulsion shaft to find the correlation between the dynamic system load generated by a bending moment and the energy state of a specified shaft segment. A physical model of the analysed process was proposed, for which the plan of static randomised block experiment was worked out. The recorded experimental results were used for statistical analysis of the significance of influence of the quantities exciting the propeller shaft fatigue process and the adequacy of the developed mathematical model describing shaft’s durability. The analysis made use of the F-Snedecor test. The article describes the general concept of the research, the constructed laboratory test rig, and the methodology of statistical inference concerning the significance of influence of input (exciting) parameters of the physical model on the recorded output parameters. The results of the performed statistical tests confirm the absence of the significance of influence of the rotational speed of the propulsion shaft on the selected types of rotating operation of the mechanical system. As a consequence, only one exciting parameter, which is the loading mass, is going to be taken into account in the functional description of fatigue life of the propulsion shaft

Słowa kluczowe

Wydawca

-

Rocznik

Tom

25

Opis fizyczny

p.211-217,fig.,ref.

Twórcy

  • Department of Marine and Land Power Plants, Faculty of Ocean Engineering and Ship Technology, Gdansk University of Technology, 11/12 Narutowicza St., 80-233 Gdansk, Poland
  • Department of Marine and Land Power Plants, Faculty of Ocean Engineering and Ship Technology, Gdansk University of Technology, 11/12 Narutowicza St., 80-233 Gdansk, Poland

Bibliografia

  • 1. Cannon R.H. (2003). Dynamics of physical systems. New York, Dover Publication.
  • 2. Cempel C., Natke H.G. (2012). Model-aided diagnosis of mechanical systems: Fundamentals, detection, localization, assessment. Springer Science & Business Media.
  • 3. Cichy M. (2001). Modelling of energy systems (in Polish). Gdansk, Wydawnictwo Politechniki Gdańskiej.
  • 4. Dragantchev H. (2000). Control and diagnostics of ship shafting. Proceedings of the IMAM 2000, Ischia, 2–6 April, Session L, s. 115–122.
  • 5. Girtler J. (2013). A method to evaluate operation of machines using technical diagnostics. Chapter 4, pp. 101-127, Monograph entitled “Diagnostic examination and inference. Selected issues” (in Polish). Warsaw, Wydawnictwo Wojskowej Akademii Technicznej.
  • 6. Girtler J. (2015). Problems of rational use of diagnostic systems for decision making in power equipment operation phase, taking into account quantum issues. Chapter 5, pp. 91-123, Monograph entitled “Selected issues of diagnostics and use of devices and systems” (in Polish). Warsaw, Wydawnictwo Wojskowej Akademii Technicznej.
  • 7. Gutenbaum J. (1992). Mathematical modelling of systems (in Polish). Warsaw, Instytut Badań Systemowych Polskiej Akademii Nauk.
  • 8. Korczewski Z. (2012). The conception of energetic investigations of the multisymptom fatigue of the simple mechanical systems constructional materials. Journal of Polish CIMAC vol. 7 no 1 Energetic aspects. Gdansk, Wydawnictwo Politechniki Gdańskiej.
  • 9. Korczewski Z. (2017). Operating diagnostics of marine internal combustion piston and turbine engines. Selected issues (in Polish). Gdansk. Wydawnictwo Politechniki Gdańskiej.
  • 10. Korczewski Z., Marszałkowski K. (2016). Physical model of energy-related processes in a rotating mechanical system for the purposes of diagnosis of transmission shafts. Journal of Polish CIMEEAC, Vol. 11, No. 1.
  • 11. Korzyński M. (2006). Methodology of experiment (in Polish). Warsaw, Wydawnictwa Naukowo-Techniczne.
  • 12. Malecki I., Ranachowski J. (1994). Acoustic emission: sources, methods, applications (in Polish). Warsaw, Instytut Podstawowych Problem Techniki PAN.
  • 13. Polański Z (1984).: Planning of experiments in engineering (in Polish). Warsaw PWN.
  • 14. Szala J., Boroński D. (2008). Evaluating material fatigue state in diagnostics of machines and devices (in Polish). Bydgoszcz, Wydawnictwo Instytutu Technologii Eksploatacji – PIB.
  • 15. VALLEN Systeme GmbH (2011). AMSY-5 System Specification.

Typ dokumentu

Bibliografia

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