References
- Kujala P, Klanac A. Analytical and numerical analyses of all steel sandwich panels under uniform pressure load. Design; 2002; Dubrovnik Vol. 2, 2002.
- Kozak J. Strength tests of steel sandwich panel. PRADS; 2004. p. 902–906.
- Boroński D, Kozak J. Research on deformations of laser-welded joint of a steel sandwich structure model. Pol Marit Res. 2004; 11(2(40))
- Kozak J. Problems with the evaluation of selected mechanical properties of steel double-layer marine structures. Gdansk: Gdansk University of Technology, 2005. ISBN 83-7348-136-2.
- Radaj D, Sonsino CM, Fricke W. Fatigue assessment of welded joints by local approaches. Cambridge: Woodhead; 2006.
- Remes H. Strain-based approach to fatigue strength assessment of laser-welded joints. Espoo: Helsinki University of Technology; 2008.
- Boroński D. Examination of local strain and stress distribution in notched specimens under cyclic load conditions. Bydgoszcz: ATR; 1999.
- Kocańda S, Szala J. Basics of fatigue calculations. Warsaw: Scientific Publishing House PWN; 1997.
- Hayman B, McGeorge D, Weitzenbock J, Noury P. Lightweight construction for advanced shipbuilding – recent development. DNV internal report. 2002.
- Romanoff J, Kujala P. The optimum design for steel sandwich panels filled with polymeric foams. Proceedings of 6th international conference on fast sea transportation; Southampton 2001.
- Robaczewski T. Influence of certain defects on the fatigue strength of welded butt joints. Weld Technol Rev. 1983.