[1. Fricke W., Petershagen H., Paetzold H.: Fatigue Strength of Ship Structures, Part I: Basic Principles, Germanischer Lloyd, Hamburg, pp. 34-36, 1997.]Search in Google Scholar
[2. Fricke W., Petershagen H., Paetzold H.: Fatigue Strength of Ship Structures, Part II: Examples. Germanischer Lloyd, Hamburg, pp. 20-21, 1998.]Search in Google Scholar
[3. Polish Register of Shipping (Polski Rejestr Statków): Fatigue strength analysis of ship steel hull (in Polish), PRS Publ. No. 45/P, Gdańsk, pp. 35-43, 1998.]Search in Google Scholar
[4. Szala J., Boroński D.: Assessment of state of material fatigue in diagnostics of machines and devices (in Polish). Publ. Institute of Operation Technology - PIB, Bydgoszcz - Radom, 2008.]Search in Google Scholar
[5. Szala J.: Hypotheses on summation of fatigue failures (in Polish), ATR Publishers (Wydawnictwa Uczelniane ATR), Bydgoszcz, 1998.]Search in Google Scholar
[6. Kocak M. (Ed.), Webster S., Janosch J. J., Ainsworth R. A., Koers R.: FITNET Fitness-for-Service procedure-Final Drif. MK7, 2006.]Search in Google Scholar
[7. Szala G., Ligaj B.: Comparative analysis of fatigue life calculation methods of C45 steel in conditions of variable amplitude loads in the low- and high- cycle fatigue ranges, Polish Maritime Research, No 4(76), Vol 19, 2012.10.2478/v10012-012-0037-z]Search in Google Scholar
[8. Ligaj B.: Infuence of selected load programs generated from correlation table, on fatigue life of 18G2A steel (in Polish). Maintenance Problems, 3/2007, Radom, 2007.]Search in Google Scholar