The use of new structural solutions of retaining walls to ensure the stable operation of the “base – engineering structure” system

Radomir Timchenko; Stanislav Popov; Oleg Nastich; Dmitry Krishko; Vladimir Savenko

doi:10.1051/e3sconf/202016602003

All issues

Volume 166 (2020)

E3S Web Conf., 166 (2020) 02003

References

Open Access

Issue		E3S Web Conf. Volume 166, 2020 The International Conference on Sustainable Futures: Environmental, Technological, Social and Economic Matters (ICSF 2020)


Article Number		02003
Number of page(s)		8
Section		Geotechnical and Geoenvironmental Engineering
DOI		https://doi.org/10.1051/e3sconf/202016602003
Published online		22 April 2020

P.I. Krivosheyev, Naukovo-tehnichni problemi koordinaciyi dij shodo zahistu budivel, sporud i teritorij zi skladnimi inzhenerno-geologichnimi umovami (Science-and-technology problems of coordination I want to save my life by equipping and combining engineering-geological minds). Budіvnitsvo of Ukraine 6, 16–19 (2001) [Google Scholar]
R.O. Timchenko, Proektuvannya i rozrahunok pidpirnih stin (Design and calculation of retaining walls). (Mineral, Kryvyi Rih, 2005) [Google Scholar]
DBN B.1.1-45: 2017, Budivli i sporudi v skladnih inzhenerno-geologichnih umovah. Zagalni polozhennya (Build and equip in folding engineeringgeological minds. General position). (Minrehion Ukrayiny, Kyiv, 2017) [Google Scholar]
D.M. Shapiro, Metod konechnyh elementov v stroitelnom proektirovanii (The finite element method in building design). (Nauchnaya kniga, Voronezh, 2013) [Google Scholar]
N.K. Kim, J.S. Park, H.J. Jang, M.Y. Kim, M.Y. Han, S.B. Kim. A new IPS earth retention system, in Proceedings of the 16th International Conference on Soil Mechanics and Geotechnical Engineering 2005, pp. 1369–1372. doi:10.3233/978-1-61499-656-91369. [Google Scholar]
V.N.S. Murthy, Geotechnical engineering: principles and practices of soil mechanics and foundation engineering (Marcel Dekker, New York, 2002). [CrossRef] [Google Scholar]
H. Popa, L. Thorel, C. Gaudin, J. Garnier, Numerical modeling of propped retaining walls – influence of parameters, in 6th European Conference On Numerical Methods In Geotechnical Engineering, Graz, Austria, 6-8 September 2006. Numerical methods in geotechnical engineering, ed. by H.F. Schweiger (Taylor & Francis Group, London, 2006), pp. 405–410 [Google Scholar]
DSTU-N B V.2.1-31:2014, Nastanova z proektuvannya pidpirnih stin (Guidance on the design of retaining walls). (Minrehion Ukrayiny, Kyiv, 2015) [Google Scholar]
DBN V.2.1-10: 2018, Osnovi i fundamenti budivel ta sporud. Osnovni polozhennya (The fundamentals and foundations of the construction and equipment. The main position). (Minrehion Ukrayiny, Kyiv, 2018). [Google Scholar]
V.F. Raiuk, Raschet davleniya grunta na podpornye stenki (Calculation of soil pressure on retaining walls). Rechnoi transport 5, 46–49 (1965) [Google Scholar]
V.F. Raiuk, Raschet bokovoho davlenyia hrunta na vertykalnuiu hran podpornoi stenky s uchetom ee deformatsyy y smeshchenyia (Calculation of lateral soil pressure on the vertical face of the retaining wall, taking into account its deformation and displacement), Hydrotekhnycheskoe stroytelstvo 2, 35–40 (1968) [Google Scholar]
K.Y. Chernyshova, Rezultaty doslidzhennia rozpodilu tysku gruntu na hnuchki pidpirni stinky (The results of upholding the clutch on the ground at the top of the list), Dopovidi AN URSR 12, 1609–1613 (1964) [Google Scholar]
Y.Ya. Luchkovskyi, Vzaymodeistvye konstruktsyi s osnovanyem (The interaction of structures with the base). Biblioteka zhurnalu ITE 3, 264 (2000) [Google Scholar]
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H.K. Klein, Raschet podpornykh sten (Calculation of retaining walls). (Vysshaia shkola, Moscow, 1964) [Google Scholar]
P.I. Yakovlev, A.G. Bybychkov, and D.A. Bybychkov, Vzaymodeistvye sooruzhenyi s hruntom (Interaction of structures with soil). (Nedra, Moscow, 1997) [Google Scholar]
A.V. Hryshyn, E.Yu. Fedorova, Nelyneinaia dynamyka ohradytelnykh sooruzhenyi (Nonlinear dynamics of protective structures). (OHMU, Odessa, 2002) [Google Scholar]
A.F. Smyrnov, Stroytelnaia mekhanyka. Dynamyka y ustoichyvost sooruzhenyi (Structural mechanics. Dynamics and sustainability of structures). (Stroiyzdat, Moscow, 1984) [Google Scholar]
N. Gucunski, H. Najm, H. Nassif, Seismic analysis of retaining walls, buried structures, embankments, and integral abutments. (Dept. of Civil & Environmental Engineering Center for Advanced Infrastructure & Transportation (CAIT) Rutgers, The State University, New Jersey, 2005) [Google Scholar]
R.O. Timchenko, D.A. Krishko, V.O. Savenko, O.B. Nastich, UA 100212 U, 10 July 2015 [Google Scholar]
Plaxis 2D. Reference manual (Delft University of Technology & PLAXIS B.V., The Netherland, 2015) [Google Scholar]
R.B.I. Brinkgreve, P.A. Vermeer. PLAXIS B.V. (Balkema, Rotterdam, 1998) [Google Scholar]
Yu.V. Henzerskyi, D.V. Medvedenko, O.I. alyenko, V.P. Tytok, LYRA-SAPR 2011 (LIRA-SAPR 2011). (Kyiv, 2011) [Google Scholar]

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[1] P.I. Krivosheyev, Naukovo-tehnichni problemi koordinaciyi dij shodo zahistu budivel, sporud i teritorij zi skladnimi inzhenerno-geologichnimi umovami (Science-and-technology problems of coordination I want to save my life by equipping and combining engineering-geological minds). Budіvnitsvo of Ukraine 6, 16–19 (2001) [Google Scholar]

[2] R.O. Timchenko, Proektuvannya i rozrahunok pidpirnih stin (Design and calculation of retaining walls). (Mineral, Kryvyi Rih, 2005) [Google Scholar]

[3] DBN B.1.1-45: 2017, Budivli i sporudi v skladnih inzhenerno-geologichnih umovah. Zagalni polozhennya (Build and equip in folding engineeringgeological minds. General position). (Minrehion Ukrayiny, Kyiv, 2017) [Google Scholar]

[4] D.M. Shapiro, Metod konechnyh elementov v stroitelnom proektirovanii (The finite element method in building design). (Nauchnaya kniga, Voronezh, 2013) [Google Scholar]

[5] N.K. Kim, J.S. Park, H.J. Jang, M.Y. Kim, M.Y. Han, S.B. Kim. A new IPS earth retention system, in Proceedings of the 16th International Conference on Soil Mechanics and Geotechnical Engineering 2005, pp. 1369–1372. doi:10.3233/978-1-61499-656-91369. [Google Scholar]

[6] V.N.S. Murthy, Geotechnical engineering: principles and practices of soil mechanics and foundation engineering (Marcel Dekker, New York, 2002). [CrossRef] [Google Scholar]

[7] H. Popa, L. Thorel, C. Gaudin, J. Garnier, Numerical modeling of propped retaining walls – influence of parameters, in 6th European Conference On Numerical Methods In Geotechnical Engineering, Graz, Austria, 6-8 September 2006. Numerical methods in geotechnical engineering, ed. by H.F. Schweiger (Taylor & Francis Group, London, 2006), pp. 405–410 [Google Scholar]

[8] DSTU-N B V.2.1-31:2014, Nastanova z proektuvannya pidpirnih stin (Guidance on the design of retaining walls). (Minrehion Ukrayiny, Kyiv, 2015) [Google Scholar]

[9] DBN V.2.1-10: 2018, Osnovi i fundamenti budivel ta sporud. Osnovni polozhennya (The fundamentals and foundations of the construction and equipment. The main position). (Minrehion Ukrayiny, Kyiv, 2018). [Google Scholar]

[10] V.F. Raiuk, Raschet davleniya grunta na podpornye stenki (Calculation of soil pressure on retaining walls). Rechnoi transport 5, 46–49 (1965) [Google Scholar]

[11] V.F. Raiuk, Raschet bokovoho davlenyia hrunta na vertykalnuiu hran podpornoi stenky s uchetom ee deformatsyy y smeshchenyia (Calculation of lateral soil pressure on the vertical face of the retaining wall, taking into account its deformation and displacement), Hydrotekhnycheskoe stroytelstvo 2, 35–40 (1968) [Google Scholar]

[12] K.Y. Chernyshova, Rezultaty doslidzhennia rozpodilu tysku gruntu na hnuchki pidpirni stinky (The results of upholding the clutch on the ground at the top of the list), Dopovidi AN URSR 12, 1609–1613 (1964) [Google Scholar]

[13] Y.Ya. Luchkovskyi, Vzaymodeistvye konstruktsyi s osnovanyem (The interaction of structures with the base). Biblioteka zhurnalu ITE 3, 264 (2000) [Google Scholar]

[14] Y.A. Symvulydy, Raschet ynzhenernykh konstruktsyi na upruhom osnovanyy (Calculation of engineering structures on an elastic foundation). (Vysshaia shkola, Moscow, 1987) [Google Scholar]

[15] H.K. Klein, Raschet podpornykh sten (Calculation of retaining walls). (Vysshaia shkola, Moscow, 1964) [Google Scholar]

[16] P.I. Yakovlev, A.G. Bybychkov, and D.A. Bybychkov, Vzaymodeistvye sooruzhenyi s hruntom (Interaction of structures with soil). (Nedra, Moscow, 1997) [Google Scholar]

[17] A.V. Hryshyn, E.Yu. Fedorova, Nelyneinaia dynamyka ohradytelnykh sooruzhenyi (Nonlinear dynamics of protective structures). (OHMU, Odessa, 2002) [Google Scholar]

[18] A.F. Smyrnov, Stroytelnaia mekhanyka. Dynamyka y ustoichyvost sooruzhenyi (Structural mechanics. Dynamics and sustainability of structures). (Stroiyzdat, Moscow, 1984) [Google Scholar]

[19] N. Gucunski, H. Najm, H. Nassif, Seismic analysis of retaining walls, buried structures, embankments, and integral abutments. (Dept. of Civil & Environmental Engineering Center for Advanced Infrastructure & Transportation (CAIT) Rutgers, The State University, New Jersey, 2005) [Google Scholar]

[20] R.O. Timchenko, D.A. Krishko, V.O. Savenko, O.B. Nastich, UA 100212 U, 10 July 2015 [Google Scholar]

[21] Plaxis 2D. Reference manual (Delft University of Technology & PLAXIS B.V., The Netherland, 2015) [Google Scholar]

[22] R.B.I. Brinkgreve, P.A. Vermeer. PLAXIS B.V. (Balkema, Rotterdam, 1998) [Google Scholar]

[23] Yu.V. Henzerskyi, D.V. Medvedenko, O.I. alyenko, V.P. Tytok, LYRA-SAPR 2011 (LIRA-SAPR 2011). (Kyiv, 2011) [Google Scholar]