SIMULATION OF SUBGRADE EMBANKMENT ON WEAK BASE

V. D. Petrenko; I. O. Sviatko

doi:10.15802/stp2015/49286

Authors

V. D. Petrenko Dnipropetrovsk National University of Railway Transport named after Academician V. Lazaryan, Ukraine https://orcid.org/0000-0002-5902-6155
I. O. Sviatko Dnipropetrovsk National University of Railway Transport named after Academician V. Lazaryan, Ukraine https://orcid.org/0000-0002-7099-2637

DOI:

https://doi.org/10.15802/stp2015/49286

Keywords:

soil cement, stress-deformed state, finite element method, subgrade, weak base

Abstract

Purpose. This article provides: the question of the sustainability of the subgrade on a weak base is considered in the paper. It is proposed to use the method of jet grouting. Investigation of the possibility of a weak base has an effect on the overall deformation of the subgrade; the identification and optimization of the parameters of subgrade based on studies using numerical simulation. Methodology. The theoretical studies of the stress-strain state of the base and subgrade embankment by modeling in the software package LIRA have been conducted to achieve this goal. Findings. After making the necessary calculations perform building fields of a subsidence, borders cramped thickness, bed’s coefficients of Pasternak and Winkler. The diagrams construction of vertical stress performs at any point of load application. Also, using the software system may perform peer review subsidence, rolls railroad tracks in natural and consolidated basis. Originality. For weak soils is the most appropriate nonlinear model of the base with the existing areas of both elastic and limit equilibrium, mixed problem of the theory of elasticity and plasticity. Practical value. By increasing the load on the weak base as a result of the second track construction, adds embankment or increasing axial load when changing the rolling stock process of sedimentation and consolidation may continue again. Therefore, one of the feasible and promising options for the design and reconstruction of embankments on weak bases is to strengthen the bases with the help of jet grouting. With the expansion of the railway infrastructure, increasing speed and weight of the rolling stock is necessary to ensure the stability of the subgrade on weak bases. LIRA software package allows you to perform all the necessary calculations for the selection of a proper way of strengthening weak bases.

Author Biographies

V. D. Petrenko, Dnipropetrovsk National University of Railway Transport named after Academician V. Lazaryan

Dep. «Tunnels, Bases and Foundations», Lazaryan St., 2, Dnipropetrovsk, Ukraine, 49010, tel. +38 (050) 708 50 69

I. O. Sviatko, Dnipropetrovsk National University of Railway Transport named after Academician V. Lazaryan

Dep. «Tunnels, Bases and Foundations», Lazaryan St., 2, Dnipropetrovsk, Ukraine, 49010, tel. +38 (056) 373 15 79

References

DBN V.2.1-10-2009. Zmina №1. Osnovy ta fundamenty sporud. Osnovni polozhennia proektuvannia [State Standart V. 2.1-10-2009. Amendment No. 1. Bases and foundations of buildings. General design]. Kyiv, Minrehionbud Ukrainy Publ., 2011. 161 p.

Petrenko V.D., Alkhdur A.M.M., Tyutkin A.L., Kovalevich V.V. Issledovaniye parametrov modernizirovannogo zemlyanogo polotna [Research of parameters of the modernized subgrade]. Visnyk Dnipropetrovskoho natsionalnoho universytetu zaliznychnoho transportu imeni akademika V. Lazariana [Bulletin of Dnipropetrovsk National University of Railway Transport named after Academician V. Lazaryan], 2012, issue 41, pp. 164-169.

Linchenko Yu.P., Shust A.Ye. Modelirovaniye svaynogo osnovaniya zdaniya s primeneniyem integralnykh elementov [Modeling of pile foundation of a building with integrated elements]. Sbornik nauchnykh trudov Natsionalnoy akademii prirodookhrannogo i kurortnogo stroitelstva. Stroitelstvo i tekhnogennaya bezopasnost [Proc. of the National Academy of environmental and resort construction. Construction and industrial safety], 2010, issue 33-34, pp. 176-182.

Litovchenko P.A. Chislennoye modelirovaniye vzaimodeystviya buroinektsionnoy svai s lokalnym zakrepleniyem v grunte i okruzhayushchego yeye gruntovogo massiva [Numerical simulation of the interaction of drill injection piles with local anchoring in the soil and the surrounding soil mass]. Stroitelstvo, materialovedeniye, mashinostroeniye [The Construction, Materials science and Engineering], 2013, issue 69, pp. 322-327

Gorodetskiy D.A., Maksimenko V.P., Medvedenko D.V., Strelets-Streletskiy Ye.B. Novyye vozmozhnosti sistemy GRUNT dlya opredeleniya parametrov zhestkosti gruntovogo i svaynogo osnovaniy [New features of a GRUNT system for determining the stiffness parameters of the soil and pile foundation]. Stroitelstvo, materialovedeniye, mashinostroeniye [The Construction, Materials Science and Engineering], 2013, issue 69, pp. 155-160.

Petrenko V.D., Sviatko I.O., Yampolskyi D.O. Porivnialnyi analiz metodiv ukriplennia zemlianoho polotna [Comparative analysis of methods of strengthening the subgrade]. Stroitelstvo, materialovedeniye, mashinostroeniye [The construction, Materials science and Engineering], 2013, issue 69, pp. 369-373.

Petrenko V.D., Yampolskyi D.O., Sviatko I.O. Porivnialnyi analiz rozrakhunkovykh modelei zaliznychnoho zemlianoho polotna [Comparative analysis of calculation models of railway subgrade]. Nauka ta prohres transportu. Visnyk Dnipropetrovskoho natsionalnoho universytetu zaliznychnoho transportu – Science and Transport Progress. Bulletin of Dnipropetrovsk National University of Railway Transport, 2013, no. 4 (46), pp 56-62. doi: 10.15802/stp2013/16619.

Pravyla rozrakhunkiv zaliznychnoi kolii na mitsnist i stiikist : TsP-0117 [The rules of calculations of railway track on the strength and stability : TsP-0117]. Kyiv, TsP UZ Publ., 2004. 69 p.

Petrenko V.D., Kosyak V.N., Kovalchuk V.V., Alkhdur A.M.M. Razrabotka variantov armirovaniya zemlyanogo polotna v slozhnykh inzhenerno-geologicheskikh usloviyakh [The development of options for subgrade reinforcement in difficult engineering-geological conditions]. Stroitelstvo, materialovedeniye, mashinostroeniye [The Construction, Materials Science and Engineering], 2011, issue 61, pp. 307-312.

Strokova L.A. Primeneniye metoda konechnykh elementov v mekhanike gruntov [Application of the finite element method in soil mechanics].Tomsk, Izdatelstvo Tomskogo politekhnicheskogo universiteta Publ., 2010. 143 p.

Tyutkin A.L., Hulak A.V. Sravnitelnyy analiz konechno-elementnykh modeley svaynogo fundamenta pri vzaimodeystvii s osnovaniyem [Comparative analysis of finite element models of pile foundation in cooperation with the base]. Visnyk Dnipropetrovskoho natsionalnoho universytetu zaliznychnoho transportu imeni akademika V. Lazariana [Bulletin of Dnipropetrovsk National University of Railway Transport named after Academician V. Lazaryan], 2010, issue 32, pp. 122-126.

Roanes-Lozano E. The Geometry of Railway Geometric Overthrow Revisited Using Computer Algebra Methods. Mathematics in Computer Science, 2013, vol. 7, issue 4, pp. 473–485. doi: 10.1007/s11786-013-0164-7.

Simi H., Amherst. Building Simulation Tools for Retrofitting Residential Structures. Energy Engineering, 2012, vol. 109, issue 3, pp. 53-74.

Wang J., Yang L C. Measures and Mechanism of Reinforcement of Soft Subgrade of High Speed Railway in Operation. Applied Mechanics and Materials, 2013, vol. 353-356, pp. 866-872. doi:10.4028/www.scientific.net/amm.353-356.866.