Foundation of flexible steel structures - developmental trends

• Autorzy: Wysokowski A. , Mońka M. , Howis J.

Identyfikatory

DOI

10.21008/j.1897-4007.2017.23.33

• Konferencja: European Conference on Buried Flexible Steel Structures (3 ; 24-25.04.2017 ; Rydzyna, Polska)
• Języki publikacji: EN

Abstrakty

EN

The technical issues described in the paper concern aspects of foundations of buried flexible steel structures. The foundations of these structures are most frequently made as traditional “rigid” structures (which is related to their massiveness - most commonly reinforced concrete), or in the form of properly profiled soil foundations (depending on the shape of the coating). Comparison of the two issues of “vulnerability”, i.e. the bearing structure and the ’’rigidity” of foundations, is the main motivation to carry out testing and conduct an analysis in this area. The problems are discussed in the paper in the context of new developments in the field of “flexible” foundations of the structures in question. Further development analyses are currently in progress , which will be practically implemented in the form of appropriate guidelines. In the authors' opinion, this will help to optimize the design of the in which the foundation of these structures.

Słowa kluczowe

EN

buried flexible steel structures; foundation; developmental trends; flexible foundations; laboratory tests; optimization

• Wydawca: Wydawnictwo Politechniki Poznańskiej
• Czasopismo: Archiwum Instytutu Inżynierii Lądowej
• Rocznik: 2017
• Tom: Nr 23
• Strony: 363--373
• Opis fizyczny: Bibliogr. 20 poz., rys., tab.

Twórcy

autor

Wysokowski A.

• Head of Road and Bridges Department, University of Zielona Góra, Poland

autor

Mońka M.

• Viacon Poland Sp. z o.o.

autor

Howis J.

• Transport Infrastructure Sp. o.o., Żmigród, Poland

Bibliografia

• 1. Regulation of the Minister of Transport, Construction and Maritime Economy of 25 April 2012 on the establishment of the geotechnical conditions of foundation of buildings (Journal of Laws, item 463).
• 2. Regulation of the Minister of Transport and Maritime Economy No. 63 of 30 May 2000 on the technical conditions to be met by road engineering structures and their location (Journal of Laws of 3 August 2000).
• 3. Vaslestad J., Wysokowski A.: Full scale testing of Multiplate corrugated steel structures in Poland. Proceeding of the 6th Conference “Shell structures and applications”, Gdansk, Poland, October 1998.
• 4. Wysokowski A., Janusz L. General conclusions based on the testing of various types of corrugated flexible structures in laboratory in natural scale. 1st European Conference “Buried flexible steel structures, Rydzyna 2007”, Archives of Institute of Civil Engineering, Publishing House of Poznan University of Technology, Poznan 2007.
• 5. Wysokowski A., Janusz L.: Buried shell bridge structures. Destructive laboratory testing. Failures during construction and operation. 23rd Science and Technology Conference “Building Failures” Civil and Water Engineering Committee, Szczecin-Międzyzdroje 2007.
• 6. Wysokowski A., Mońka M. Laboratory testing of steel sheet foundations used in buried shell bridges. Selected civil engineering issues. Bydgoszcz University of Technology and Life Sciences Publishing, Bydgoszcz 2015.
• 7. Wysokowski A., Janusz L., Mońka M. A study of the impact of foundation on the behavior of composite buried shell bridge structure under static loads. 8th “Composite Structures” Conference, Zielona Góra University Publishing, Zielona Góra 2008.
• 8. Wysokowski A., Korusiewicz L., Kunecki B.: Report on the implementation of a study for the construction of Multiplate culverts and culverts made of DV/Arot Optima and Helcor pipes, Part I: Multiplate, Part II: DV/Arot Optima and Helcor pipes. Road and Bridge Research Institute, Żmigród - Węglewo, June 1999.
• 9. Wysokowski A., Vaslestad J.: Full scale fatigue testing of large-diameter Multi-Plate corrugated steel culverts. Archives of Civil Engineering, XLVIII, 1, 2002.
• 10. Rowińska W., Wysokowski A., Pryga A.: Design and technology recommendations for flexible engineering structures made of corrugated sheet metal. General Directorate for National Roads and Motorways, Warsaw, 2004.
• 11. Jasiński W., Łęgosz A., Nowak A., Pryga-Szulc A., Wysokowski A.: Design and technology recommendations for flexible engineering structures made of plastics. General Directorate for National Roads and Motorways, 2006.
• 12. Machelski Cz. Michalski J. B. Flexible foundation of buried shell structures. Engineering Structures. Issue 1/2009.
• 13. Tomala P., Nowak M., Marecki A. Foundations of buried shell structures made of corrugated sheet metal. Engineering and Construction, Issue 3/2013.
• 14. Wysokowski A., Howis J. Culverts in transport infrastructure - Part 7: Culvert structure calculation methods. Modem Construction Engineering, Issue 03/04 2010.
• 15. Janusz L., Madaj A., Civil engineering structures made of corrugated sheet. Design and construction. Warsaw, WKŁ 2007.
• 16. Machelski Cz. Calculations for buried shell bridges. Wrocław Publishing Series on Bridge Engineering. Lower Silesia Educational Publishing. Wrocław 2008
• 17. Wysokowski A.: Stand for testing of bridges at natural scale-research possibilities. Report from Polish Road and Bridge Research Institute. Żmigród 1997.
• 18. Wysokowski A., Górna J. Study of a steel flexible structure on a reinforced concrete foundation and a corrugated sheet foundation. Part 1: Research program - paper IBDIM- TW 66907a/W-1569, Part 2 Report on model development and the simultaneous study Report-paper IBDIM-TW 66907b/W-1569, Part 3: Final report on the research - paper IBDIM-TW 66907a/W-1569 Żmigród 2007.
• 19. Lachowicz M., Podhorecki A. Sustainable construction of culverts and wildlife crossings. Modem Construction Engineering 09/10 2012.
• 20. Nottegar M. 50315 Rumtec steel foundation finite element analysis, Helsinki, 26/03/2010.

Uwagi

Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).