Study of the temperature field and the thermo-elastic state of the multilayer soil-steel structure

Vitalii Kovalchuk; Yuriy Hnativ; Joseph Luchko; Mykola Sysyn

doi:10.7409/rabdim.020.004

Published: 2020-03-31

Vol. 19 No. 1 (2020)

Study of the temperature field and the thermo-elastic state of the multilayer soil-steel structure

Vitalii Kovalchuk , Yuriy Hnativ , Joseph Luchko , Mykola Sysyn

Section: Articles

https://doi.org/10.7409/rabdim.020.004

Abstract

The technology of renewal of metal corrugated structures allows efficient and economical reconstruction of existing reinforced concrete structures by the method of encapsulation. However, such structures can be exposed to adverse temperature effects that in combination with traffic loadings could influence the operational reliability of the structures. This article deals with the method of evaluation of the stress-strain state of a three-layer cylindrical structure. The technique is based on the thermo-elasticity theory. The study is performed in two steps: determining the temperature field of a structure, and then calculating the temperature stresses and deformations. As a result of calculations, it was established that the level of temperature field and stresses in a three-layer structure caused by the maximum and minimum ambient temperatures can reach a significant level.

Keywords:

ambient temperature, defective transport structure, temperature field, three-layer cylindrical structure, stress-strain state.

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Kovalchuk, V., Hnativ, Y., Luchko, J., & Sysyn, M. (2020). Study of the temperature field and the thermo-elastic state of the multilayer soil-steel structure. Roads and Bridges - Drogi I Mosty, 19(1), 65–78. https://doi.org/10.7409/rabdim.020.004

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References

Machelski C.: Steel plate curvatures of soil-steel structure during construction and exploatition. Roads and Bridges - Drogi i Mosty, 15, 3, 2016, 207-220, DOI: 10.7409/rabdim.016.013
Google Scholar

Machelski C., Janusz L., Czerepak A.: Estimation of stress level in the corrugated soil-steel structure based on deformations in the crown. Journal of Traffic and Transportation Engineering, 4, 2016, 186-193, DOI: 10.17265/2328-2142/2016.04.002
Google Scholar

Machelski C., Mumot M.: Corrugated shell displacements during the passage of a vehicle along a soil-steel structure. Studia Geotechnika et Mechanica, 38, 4, 2016, 29-36, DOI: 10.1515/sgem-2016-0028
Google Scholar

Maleska T., Bęben D.: The efect of mine induced tremors on seismic response of soil-steel bridges. 3rd Scientific Conference Environmental Challenges in Civil Engineering (ECCE 2018), Les Ulis, France, MATEC Web of Conferences, 174, 04002, 2018, 1-10, DOI: 10.1051/matecconf/201817404002
Google Scholar

Kovalchuk V., Markul R., Pentsak A., Parneta B., Gajda O., Braichenko S.: Study of the stressstrain state in defective railway reinforcedconcrete pipes restored with corrugated metal structures. Eastern-European Journal of Enterprise Technologies, 89, 5/1, 2017, 37-44, DOI: 10.15587/1729-4061.2017.109611
Google Scholar

Sobotka M., Machelski C.: Hysteretic live load effect in soil-steel structure. Engineering Transactions, 64, 4, 2016, 493-499
Google Scholar

Kovalchuk V., Kovalchuk Y., Sysyn M., Stankevych V., Petrenko O.: Estimation of carrying capacity of metallic corrugated structures of the type multiplate MP 150 during interaction with backfill soil. Eastern-European Journal of Enterprise Technologies, 91, 1/1, 2018, 18-26, DOI: 10.15587/1729-4061.2018.123002
Google Scholar

Machelski C., Korusiewicz L.: Deformation of buried corrugated metal box structure under railway load. Roads and Bridges - Drogi i Mosty, 16, 3, 2017, 191-201, DOI: 10.7409/rabdim.017.013
Google Scholar

Machelski C., Janusz L., Tomala P., Wiliams K.: Application of results of test in developing 2D model for soilsteel railway bridges. Conference Transportation Research Board of National Academies, Washington D.C., 12-15 January 2018, Paper 19-05399
Google Scholar

Machelski C.: Stiffness of layered shells in soil-steel bridge structures. Roads and Bridges - Drogi i Mosty, 10, 4, 2011, 55-78
Google Scholar

Kunecki B., Korusiewicz L.: Field tests of large-span metal arch culvert during backfilling. Roads and Bridges - Drogi i Mosty, 12, 3, 2013, 283-295, DOI: 10.7409/rabdim.013.020
Google Scholar

Mistewicz M.: Risk assessment of the use of corrugated metal sheets for construction of road soil-shell structures. Roads and Bridges-Drogi i Mosty, 18, 2, 2019, 89-107, DOI: 10.7409/rabdim.019.006
Google Scholar

Bęben D.: Experimental Testing of Soil-Steel Railway Bridge Under Normal Train Loads.In: Experimental Vibration Analysis for Civil Structures. Lecture Notes in Civil Engineering, 5, 2018, 805-815, DOI: 10.1007/978-3-319-67443-8_71
Google Scholar

Maleska T., Bęben D.: Behaviour of corrugated steel plate bridge with high soil cover under seismic excitation. The 3rd Scientific Conference of Environmental Challenges in Civil Engineering (ECCE 2018), Les Ulis, France, MATEC Web of Conferences, 174, 04003, 2018, 1-11, DOI: 10.1051/matecconf/201817404003
Google Scholar

Korusiewicz L., Kunecki B.: Behaviour of the steel box-type culvert during backfilling. Archives of civil and mechanical engineering, Vol. XI, No. 3, 2011, 638-650
Google Scholar

Mak A.C., Brachman R.W.I., Moore I.D.: Measured response of a deeply corrugated box culvert to three dimensional surface loads. Transportation Research Board Annual Conference, Washington D.C., Paper 09-3016, 2009, 14 p.
Google Scholar

Bęben D.: Numerical analysis of a soil-steel bridge structure. Baltic Journal of Road and Bridge Engeineering, 4, 1, 2009, 13-21, DOI: 10.3846/1822-427X.2009.4.13-21
Google Scholar

Luchko Y.Y., Kovalchuk V.V.: Vymiriuvannia napruzheno-deformovanoho stanu konstruktsii mostiv pry zminnykh temperaturakh i navantazhenniakh. Monohrafiia, Kameniar, Lviv, 2012, 235 p. (in Ukraine)
Google Scholar

Prakash Rao D.S.: Temperature Distribution and Stresses in Concrete Bridges. American Concrete Institute, ACI Journal, Vol. 83, 4, 1986, 588-596
Google Scholar

Gera B., Kovalchuk V.: A study of the effects of climatic temperature changes on the corrugated structure of a culvert of a transportation facility. Eastern-European Journal of Enterprise Technologies, 99, 3/7, 2019, 26-35, DOI: 10.15587/1729-4061.2019.168260
Google Scholar

Hakenjos V., Richter K., Gerber A., Wiedermeyer J.: Untersuchung der Bewegungen von Brűckenbemwerken infolge Temperatur und Verkehrsbelastung am Beispiel einer Stahlbrűcke. Stanbaukrupp Industrietechnik GmbH, Vol. 54, 2, 1985, 55-59
Google Scholar

Hoffman P.C., Meclur R.M., West H.H.: Temperature Problem in a Prestressed Box-Girder Bridge. Transportation Research Record, 982, 1984, 42-50
Google Scholar

Luchko Y.Y, Hnativ Yu M., Kovalchuk V.V.: Doslidzhennia temperaturnoho polia ta napruzhenoho stanu prohonovoi budovy stalezalizobetonnoho mosta. Visnyk ternopilskoho natsionalnoho tekhnichnoho universytetu, 52, 2, 2013, 29-38
Google Scholar

Kuryłowicz-Cudowska A.: Determination of Thermo- physical Parameters Involved in The Numerical Model to Predict the Temperature Field of Cast-In-Place Concrete Bridge Deck. Materials, 12, paper 3089, 2019, 1-30, DOI: 10.3390/ma12193089
Google Scholar

Karpiuk V., Syomina Y.A., Antonova D.V.: Bearing Capacity of Common and Damaged CFRP-Strengthened R. C. Beams Subject to High-Level Low-Cycle Loading. Materials Science Forum: Actual Problems of Engineering Mechanics, Vol. 968, 2019, 185-199, DOI: 10.4028/www.scientific.net/MSF.968.185.
Google Scholar

Karpiuk V., Syomina Y.A., Antonova D.V.: Calculation Models of the Bearing Capacity of Span Reinforced Concrete Structures Support Zones. Materials Science Forum: Actual Problems of Engineering Mechanics, Vol. 968, 2019, 209-226, DOI: 10.4028/www.scientific.net/MSF.968.209
Google Scholar

Ahaieva O., Karpiuk V., Posternak O.: Simulation of Design Reliability and Bearing Capacity of Normal and Oblique Sections of Span Prestressed Reinforced Concrete Structures. Materials Science Forum: Actual Problems of Engineering Mechanics, Vol. 968, 2019, 267-280. DOI: 10.4028/www.scientific.net/MSF.968.267
Google Scholar

Podstrigach Ya.S., Lomakin V.A., Kolyano Yu.M.: Termouprugost tel neodnorodnoy strukturyi. Nauka, 1984, 368 p. (in Russian)
Google Scholar

Vitalii Kovalchuk

kovalchuk.diit@gmail.com

Affiliation:

Dnipro National University of Railway Transport named after academician V. Lazaryan, Department of Rolling Stock and Track, Lviv Branch, I. Blazhkevych Str., 12-a, Lviv, 79052, Ukraine

Yuriy Hnativ

Affiliation:

Dnipro National University of Railway Transport named after academician V. Lazaryan, Department of Rolling Stock and Track, Lviv Branch, I. Blazhkevych Str., 12-a, Lviv, 79052, Ukraine

Joseph Luchko

Affiliation:

Lviv National Agrarian University, Department of Building Constructions, V. Velykoho Str., Dublyany, Zhovkivskyy r-n, Lvivska obl., 80381, Ukraine

Mykola Sysyn

Affiliation:

Technical University of Dresden, Institute of Railway Systems and Public Transport, Hettnerstraße 2, 01069 Dresden, Germany

Study of the temperature field and the thermo-elastic state of the multilayer soil-steel structure

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Vitalii Kovalchuk

Yuriy Hnativ

Joseph Luchko

Mykola Sysyn