This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License.
Machelski C. (2015) Stiffness of railway soil-steel structures. Studia Geotechnika et Mechanica. 4, 29–36.MachelskiC.2015Stiffness of railway soil-steel structures4293610.1515/sgem-2015-0042Search in Google Scholar
Sobótka M. (2014) Numerical simulation of hysteretic live load effect in soil-steel bridge. Studia Geotechnika et Mechanica. 36.1. 103–109.SobótkaM.2014Numerical simulation of hysteretic live load effect in soil-steel bridge361103–10910.2478/sgem-2014-0012Search in Google Scholar
Machelski C. (2018) Budowlane obciążenia podatnych obiektów inżynierskich. Construction load of the soil-steel structures. Przegląd Komunikacyjny 10, 30–35.MachelskiC.2018Budowlane obciążenia podatnych obiektów inżynierskich. Construction load of the soil-steel structures10303510.35117/A_ENG_18_10_06Search in Google Scholar
Machelski C, Janusz L. (2017) Application of Results of Test in Developing 2D Model for Soil-Steel Railway Bridges. Journal of the Transportation Research Board. Solid Mechanic, 1, 70–75.MachelskiCJanuszL.2017Application of Results of Test in Developing 2D Model for Soil-Steel Railway Bridges. Journal of the Transportation Research Board1707510.3141/2656-06Search in Google Scholar
Asp O., Laaksonen A. (2017) Instrumentation and FE-analysis of a large span culvert built under railway. Structural Engineering International. Vol. 26, No 4, 357–364.AspO.LaaksonenA.2017Instrumentation and FE-analysis of a large span culvert built under railwayVol. 26No 435736410.2749/101686616X14555429843807Search in Google Scholar
Moore J.D., Regier C., Hoult N.A. (2017) Surface load testing of new circular and elliptical metal culverts at shallow cover. Archives of Institute of Civil Engineering 23, 219–227.MooreJ.D.RegierC.HoultN.A.2017Surface load testing of new circular and elliptical metal culverts at shallow cover2321922710.21008/j.1897-4007.2017.23.20Search in Google Scholar
Szajna W.S. (2007) Numerical model for the analysis of construction process of soil-steel culverts. Archives of Institute of Civil Engineering. 1, 215–223.SzajnaW.S.2007Numerical model for the analysis of construction process of soil-steel culverts1215223Search in Google Scholar
Machelski C. (2018) Soil-steel structure shell displacement functions based on tensometric measurements. Studia Geotechnika et Mechanica. 4, 29–36.MachelskiC.2018Soil-steel structure shell displacement functions based on tensometric measurements4293610.2478/sgem-2018-0020Search in Google Scholar
Tomala P., Nowak M., Samolewski W., Szyszka M. (2019) Soil-Steel Composite Structure Monitoring During Bacfilling and Uncovering – Observations and Remarks. Conf. Transportation Research Board of Nationals Academies, Washington D.C., 12–15 January, 2019.TomalaP.NowakM.SamolewskiW.SzyszkaM.2019Conf. Transportation Research Board of Nationals AcademiesWashington D.C12–15January, 2019Search in Google Scholar
Sielver M. L., Seed H. B. (1971) Volume Changes in Sands during Cyclic Loading. ASCE Soil Mechanics and Foundations Division Vol. 97, No SM9, September 1971.SielverM. L.SeedH. B.1971Volume Changes in Sands during Cyclic LoadingVol. 97No SM9September 197110.1061/JSFEAQ.0001658Search in Google Scholar
Vaslestad J., Kunecki B., Johanson T. H. (2007) Twenty one years pressure measurements on buried flexible steel structure. Archives of Institute of Civil Engineering. 1, 233–244.VaslestadJ.KuneckiB.JohansonT. H.2007Twenty one years pressure measurements on buried flexible steel structure1233244Search in Google Scholar
Łydżba D., Różański A., Sobótka M., Stefaniuk D., Chudy G., Wróblewski T. (2017) Mechanical behaviour of soil-steel structure subjected to live load and different water conditions. Archives of Institute of Civil Engineering. 23, 163–174.ŁydżbaD.RóżańskiA.SobótkaM.StefaniukD.ChudyG.WróblewskiT.2017Mechanical behaviour of soil-steel structure subjected to live load and different water conditions2316317410.21008/j.1897-4007.2017.23.16Search in Google Scholar