[[1] STN EN 1993-1-8: Design of steel structures - Part 1-8: Design of joints. SUTN Bratislava 2005.]Search in Google Scholar
[[2] REGULATION ŽM 60. Basic information about bridge ŽM 60.]Search in Google Scholar
[[3] STN EN 1993-1-1: Design of steel structures. Part: 1-1: General rules and rules for buildings. SUTN Bratislava 2006.]Search in Google Scholar
[[4] BENDIS, A.: The Fatigue Properties of 16 224. 6 Steel and Its Welded Joints. Zvaranie, 1985, 34.10, pp. 308-312.]Search in Google Scholar
[[5] Analysis of the bridge ŽM 60. Vítkovice, 1982. Proceeded by Ing. Novotný.]Search in Google Scholar
[[6] VIČAN, J. - FARBÁK, M.: Report from analysis of the pin connection of the bridge ŽM 60 lower chord. Department of Structures and Bridges, UNIZA 02/2019.]Search in Google Scholar
[[7] ADINA, R. D. INC.: ADINA Theory and Modeling Guide, ADINA R&D, Watertown, Massachusetts, USA 2012.]Search in Google Scholar
[[8] ANH LE XUAN: Dynamics of mechanical system with coulomb Friction. Foundation of Engineering Mechanics, Springer 2003, Berlin10.1007/978-3-540-36516-7]Search in Google Scholar
[[9] KREJSA, M. et al: Numerical analysis of fatigue damage on selected connection of the crane bridge support structure. In: Engineering mechanics 2018: book of full texts. Prague: The Czech Academy of Science. The Institute of Theoretical and Applied Mechanics, 2018, pp. 437-440.]Search in Google Scholar
[[10] VIČAN, J. at all: Existing Steel Railway Bridges Evaluation. In: Civil and Environmental Engineering. Vol. 12, Issue 2, 2016, pp. 103-110.]Search in Google Scholar
[[11] DE BORST, R. - CRISFIELD, M. A. - REMMERS, J. J. - VERHOOSEL, C. V.: Nonlinear finite element analysis of solids and structures. John Wiley & Sons, 2012.10.1002/9781118375938]Search in Google Scholar
