This work is licensed under the Creative Commons Attribution 4.0 International License.
BENDA, M. - MANAS, P.: Temporary Bridges Used in the Czech Republic. Proceedings of the International Conference on Military Technologies (ICMT), Brno, Czech Republic, 31 May–2 June 2017; pp. 252–256.Search in Google Scholar
INGHAM, B.: Temporary bridging - Principles of design and construction. Temporary Works, 2nd ed., Ice Publishing, London, UK, 2018, Chapter 19, pp. 251–262.Search in Google Scholar
JACKSON, G. B.: The Bailey Bridge, New Zealand Engineering, Wellington, New Zealand, 1949, p. 1003.Search in Google Scholar
ROBERTS, L. D.: The Bailey - The Amazing, All-Purpose Bridge. Builders and Fighters, U.S. Army Engineers in World War II, 1st ed., United States Army Corps of Engineers, Fort Belvoir, VA, USA, 1992; pp. 181–193.Search in Google Scholar
MENGE, M. - HECKENBACH, J.: The temporary bridges over the Ahr (Die Behelfsbrücken über die Ahr). Bautechnik, Volume 100, Issue 7 Jul 2023, Pages 357-442.Search in Google Scholar
CHANGSUNG, K. - JONGTAE, K. - JOONGU, K.: Analysis of the Cause for the Collapse of a Temporary Bridge Using Numerical Simulation, Engineering, Vol. 5, No. 12, 2013.Search in Google Scholar
MORAVCIK, M. - BUJNAKOVA, P. - BAHLEDA, F.: Failure and damage of a first-generation precast prestressed bridge in Slovakia. Structural Concrete, the journal of the FIB. ISSN 1464-4177, 2020, pp. 2353-2362.Search in Google Scholar
MENGE, M. - PETRASCHEK, T.: High Performance Temporary Bridges. Bauingenieur, Volume 90, Issue Number: 1, Page1-10, 2015, Springer-VDI-Verlag GmbH, ISSN: 0005-6650.Search in Google Scholar
HANAK, M. - BENDA, M.: Complex Aid Tool for Designing Temporary Bridges from the MMT Bridge Set. International Conference on Military Technologies (ICMT 2015), pp. 229-233.Search in Google Scholar
SOUSEK, R. - VISKUP, P. - HRUZA, P.: The Development and Application of Evaluation System to the New Temporary Railway Bridge Construction in the Czech Republic. Transport Means -Proceedings of the International Conference 2014, Kaunas Univ Technol Press, pp. 329-334.Search in Google Scholar
KHOUNSIDA, T. - NISHIKAWA, T. - NAKAMURA, S. - OKUMATSU, T. - THEPVONGSA, K.: Study on Static and Dynamic Behavior of Bailey Bridge. Proceedings of the 2019 World Congress on Advances in Structural Engineering and Mechanics (ASEM19), Jeju Island, Korea, 17–21 September 2019.Search in Google Scholar
KING, W. S. - DUAN, L.: Experimental Investigations of Bailey Bridges. J. Bridge Eng. 2003, 8, pp. 334–339.Search in Google Scholar
HLINKA, R.: Final report from the proof load test of the bridge. ŽSR, Modernization of the Púchov – Žilina line for a speed of up to 160 km/h, I. stage, New railway bridge over the Nosická dam – Temporary bridge 2xŽM60 – 30m, Žilina 2018.Search in Google Scholar
SCIA Engineer. Reference Guide, Nemetschek Group, Hasselt, Belgium, 2013.Search in Google Scholar
EN 1993-1-8: Design of steel structures - Part 1-8: Design of joints. SUTN Bratislava 2007.Search in Google Scholar
VICAN, J. - FARBAK, M.: Report from analysis of the pin connection of the bridge ŽM 60 lower chord. Department of Structures and Bridges, UNIZA 2019.Search in Google Scholar
YANGA, Y. - CHANGA, M. - KANGB, C. - YEHC, Y.: Study of Construction-Oriented Structural Connectors for a Temporary Bridge. 36th International Symposium on Automation and Robotics in Construction (ISARC 2019), Proceedings of the 36th ISARC, Banff, Canada.Search in Google Scholar
ADINA, R. D. Inc.: ADINA Theory and Modeling Guide, ADINA R&D, Watertown, Massachusetts, USA 2012.Search in Google Scholar
EN 1991-1-1: Eurocode 1: Actions on structures. Part 1-1: General actions. Densities, self-weight, imposed loads for buildings. CEN: Brussels, Belgium, 2005.Search in Google Scholar
EN 1991-1-4: Eurocode 1: Actions on Structures—Part 1-4: General Actions—Wind Actions. CEN: Brussels, Belgium, 2005.Search in Google Scholar
EN 1991-2: Eurocode 1: Actions on Structures—Part 2: Traffic Loads on Bridges. CEN: Brussels, Belgium, 2006.Search in Google Scholar
ODROBINAK, J. - FARBAK, M. - CROMCAK, J. - KORTIS, J. - GOCAL, J.: Real Geometrical Imperfection of Bow-String Arches - Measurement and Global Analysis. Applied Science, 2020, 10, 4530.Search in Google Scholar
EN 1993-1-1: Eurocode 3: Design of Steel Structures—Part 1-1: General Rules and Rules for Buildings. CEN: Brussels, Belgium, 2005.Search in Google Scholar
EN 1993-2: Eurocode 3: Design of Steel Structures—Part 2: Steel Bridges. CEN: Brussels, Belgium, 2006.Search in Google Scholar
BUJNAK, J. - VICAN, J. - ODROBINAK, J.: Proof Load Tests and FEM Model as a Tools for Verification of Real Bridge Behaviour. Proceedings of the 8th International Conference on Short & Medium Span Bridges, Niagara Falls, ON, Canada, 2010; p. 148/1-10.Search in Google Scholar
MORAVCIK, M. - KOTES, P. - BRODNAN, M. - KOTULA, P.: Some experience from the analysis of existing 40 years old prestressed bridges in the north of Slovakia. Communications - Scientific Letters of the University of Žilina, 2014.Search in Google Scholar
TP 02/2016 – Load-carrying capacity of road bridges and footbridges. Ministry of Transport, Construction and Regional Development of the Slovak Republic, Bratislava 2016.Search in Google Scholar
UIC 70778-2; Recommendations for Determining the Carrying Capacity and Fatigue Risks of Existing Metallic Railway Bridges Aft. International Union of Railway: Paris, France, 2021, 77p.Search in Google Scholar
Railways of the Slovak Republic. General Technical Requirements: Determination of Load Carrying Capacity of Railway Bridges, Railways of the Slovak Republic: Bratislava, Slovakia, 2015; 116p.Search in Google Scholar
Regulation SZ S5/1: Diagnostics, Load-Carrying Capacity and Pass Ability of Railway Bridges. Czech Railway Administration, Prague, Czech Republic, 2021; 156p.Search in Google Scholar
STANAG 2021: Military load classification of bridges, ferries, rafts and vehicles. NATO Brussels, Belgium, 2017.Search in Google Scholar
HORNBECK, B. - KLUCK, J. - CONNOR, R.: Trilateral design and test code for militarybridging and gap-crossing equipment. Tardec bridging (AMSRD-TAR-E/ELE), 2005.Search in Google Scholar
DUCHACZEK, A. - SKORUPKA, D.: Risk assessment as a safety element in temporary bridge exploitation. European Journal of Environmental and Civil Engineering, Volume 21, 2017 - Issue 10, Pages 1253-1269.Search in Google Scholar
