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All issues Volume 376 (2023) E3S Web Conf., 376 (2023) 01103 References
Open Access
Issue
E3S Web Conf.
Volume 376, 2023
International Scientific and Practical Conference “Environmental Risks and Safety in Mechanical Engineering” (ERSME-2023)
Article Number 01103
Number of page(s) 14
Section I Environmental Risks and Safety in Mechanical Engineering
DOI https://doi.org/10.1051/e3sconf/202337601103
Published online 31 March 2023
  1. V.B. Glagovsky, O.M. Finagenov, Izv. VNIIG named after B. E. Vedeneev. 238, 28-33 (2000) [Google Scholar]
  2. N.D. Krasnikov, "Seismic stability of hydro-technical structures built from earth materials" (Energoizdat, M., 1981) [Google Scholar]
  3. M.A. Akhmedov, "Earthquake, consequences and protection" (Tashkent State Technical University, Tashkent, 2016) [Google Scholar]
  4. M.A. Akhmedov, K.J. Salyamova, "Analysis and assessment of damage to hydro-technical structures" (“Fan va technology” 2016) [Google Scholar]
  5. Yu.K. Zaretsky, V.N. Lombardo, "Statics and dynamics of earth dams" (Energoizdat, M., 1983) [Google Scholar]
  6. I. A. Konstantinov, "Dynamics of hydro-technical structures" (Part 2.-: LPI Publishing House, L., 1976) [Google Scholar]
  7. V.N. Lombardo, "Static calculation of earth dams" (“Energy”, M., 1983) [Google Scholar]
  8. V.M. Lyakhter, I. N. Ivashenko, "Seismic resistance of earth dams" (Nauka, M., 1986) [Google Scholar]
  9. M.M. Mirsaidov, "Theory and methods for calculating soil structures for strength and seismic resistance" (FAN, Tashkent, 2010) [Google Scholar]
  10. Sh.G. Napetvaridze, "Seismic stability of hydro-technical structures" (Gosstroyizdat, M., 1959) [Google Scholar]
  11. Sh. Okamoto, "Seismic resistance of engineering structures" (Stroyizdat, M., 1980) [Google Scholar]
  12. L.N. Rasskazov, A.S. Bestuzheva, “Seismic resistance of earth dams” (Hydrotechnical Constr, M., 1997) [Google Scholar]
  13. M. Mirsaidov, T.Z. Sultanov, "Evaluation of the dynamic strength of earth dams taking into account nonlinear deformation" (“Adabiyot uchqunlari”, Tashkent, 2018) [Google Scholar]
  14. Behrouz Gordan. Azlan Adnan, “Excellent performance of earth dams under resonance motion using isolator damping layer” (Shockandvibration 2014) DOI: https://doi.org/10. 1155/2014/432760. [Google Scholar]
  15. Azizi Arbain, et al., "Vibration analysis of Kenyir dam power station structure using a real scale 3d model" (Civil and environmental engineering reports,” 2019) DOI: 10.2478/ceer-2019-0023. [Google Scholar]
  16. Mohammad Kazem Jafariand Mohammad Davoodi, In 13th World conference on earthquake engineering vancouver, B.C., Canada August 1-6, 120–132 (2004) [Google Scholar]
  17. A. José Inaudi, et al., “Foundation flexibility effects on the seismic response of concrete gravity dams”, 1-16 (2000) DOI: https://www.academia.edu/25830322/ [Google Scholar]
  18. Reto Cantieni, Int. conference on safety, risk and reliability - trends in engineering, 1001-1006 (2001) DOI: https://www.researchgate.net/publication/239557195. [Google Scholar]
  19. E Lo L Pelecanos Andrew Pepper, “Comparison of shear-beam and dynamic finite-element modal analysisof earth dams” (ICE Publ. is part Inst. Civ. Eng., 2018) DOI: 10.1680/sdar.64119.103. [Google Scholar]
  20. C.O. Ike Charles, Niger. J. Technol. march, vol. 27(1), 1–14 (2008) DOI: https://www.ajol.info/index.php/njt/article/view/123404 [Google Scholar]
  21. R. Tarinejad, M.T. Ahmadi, R.S. Harichandran, “Full-Scale experimental modal analysis of an arch dam, the first experience in Iran” (Soil Dyn. sand Earthq. Eng., 2004) DOI: doi:10.1016/j.soildyn.2014.01.020 [Google Scholar]
  22. Bariş Sevim, Ahmet Can Altunişik, “Determination of natural frequencies of arch dams based on reservoir levels using ambient and forced vibration tests” (Civ. eng. res. j., vol. 3(5) 2018) Pp. 1–12. doi: 10.19080/CERJ.2018.03.555623 [Google Scholar]
  23. V. Silveira Iarly, J. Pedroso Lineu, “Analysis of natural frequencies and modes of vibration involving interaction dam-reservoirfoundation for concrete gravity dams” (Third Int. dam world Conf., 2018) Pp. 1–15. doi:https://www.researchgate.net/publication/327945214 [Google Scholar]
  24. Paolo Zimmaro, Ernesto Ausilio, “Numerical evaluation of natural periods and mode shapes of earth dams for probabilistic seismic hazard analysis applications” (Geosciences, vol. 10(499), 2020) Pp.1-11. doi: 10.3390/geosciences10120499 [PubMed] [Google Scholar]
  25. Babak Ebrahimian, Ali Noorzad, “Numerical earthquake response analysis of the earth dams” (Long-Term Behaviour and Environmentally Friendly Rehabilitation Technologies of Dams 2017) P.р.805-817. doi: 10.3217/978-3-85125-564-5-109 [Google Scholar]
  26. Navid Hasani, Ali Ghanbari, S. Ali. Asghar Hosseini, “Analytical estimation of natural frequency in earth dams with respecting to the foundation effects” (Numer. Methodsin Civ. Eng., vol. 1 (9), 2016) P.р.7-13. doi: 10.29252/nmce.1.1.710.29252/nmce.1.1.7 [Google Scholar]
  27. G.L. Kozinetc, P.V. Kozinetc, “The calculation of the dynamic characteristics of the spillway of the dam” (Magazine of Civil Engineering 113(5), 2022) Pp.1-8. DOI: 10.34910\MCE.113.12 [Google Scholar]
  28. J.C. Galván, et al., “Boundary element model for the analysis of the dynamic response of the Soria arch dam and experimental validation from ambient vibration tests” (Engineering Analysis with Boundary Elements Vol.144, 2022) Pp.67-80. https://doi.org/10.1016/j.enganabound.2022.08.008 Get rights and content [CrossRef] [Google Scholar]
  29. A Arbain, et al., “Vibration analysis of chenderoh dam physical model spillway structure due to the effect of water spilling: Numerical and Experimental Validation” (IOP Conf. Ser.:Mater. Sci. Eng. 815, 012020, 2020). doi:10.1088/1757-899X/815/1/012020 [CrossRef] [Google Scholar]
  30. Ravindra Vipparthy, “Static and free vibration analysis of gravity dam under the influence of hydrostatic pressure using ANSYS finite element models” (GMRIT JNTUK. 2022) https://doi.org/10.21203/rs.3.rs-1823407/v1 [Google Scholar]
  31. Ahmet Altunışık, et al., “Experimental modal analysis and structural health monitoring of the double curvature Deriner arch dam research” (Natural & Applied sciences journal Vol.4, No.1, 2021) Pp.22-29. doi:10.38061/idunas.851853 [CrossRef] [Google Scholar]
  32. Mostafa Farajian et al., “Experimental study on the natural dynamic characteristics of steel-framed modular structures” (Buildings 2022, 12(5), 587) https://doi.org/10.3390/buildings12050587 [CrossRef] [Google Scholar]
  33. Sayantan Chakraborty et al., “Natural frequency of earthen dams at different induced strain levels” (Engineering Geology. 2019. Vol. 248(8)) Pp.340-345 https://doi.org/10.1016/j.enggeo.2018.12.008. [Google Scholar]
  34. Seyed Reza Jafari, Majid Pasbani Khiavi, “Parametric Study of the Modal Behavior of Concrete Gravity Dam by Using Finite Element Method” (Civil Engineering Journal 2019, 5(12)) Pp.2614-2625. DOI:10.28991/cej-2019-03091437 [CrossRef] [Google Scholar]
  35. Z. Urazmukhamedova et al., “Assessment of stress state and dynamic characteristics of plane and spatial structure” (J. Phys.: Conf. Ser. 2070 012156,2021) Pp.1-10. DOI 10.1088/1742-6596/2070/1/012156 [CrossRef] [Google Scholar]
  36. M. Mirsaidov, K. Mamasoliev,“Contact Interactions of Multi-Layer Plates with a Combined Base” (AIP Conference Proceedings 2637, 050001, 2022) Pp. 1-12. https://doi.org/10.1063/5.0118870 [Google Scholar]
  37. M. Mirsaidov. K. Mamasoliev, K. Ismayilov. “Bending of Multilayer Slabs Lying on Elastic Half-Space, Considering Shear Stresses” (Lecture Notes in Civil Engineering Proceedings of MPCPE 2021, 2022) Pp. 93-107. https://doi.org/10.1007/978-3-030-85236-8_8 [CrossRef] [Google Scholar]
  38. M.M. Mirsaidov, K. Mamasoliev, “Contact interaction of multilayer slabs with an inhomogeneous base” (Magazine of Civil Engineering 115(7). Article No. 11504, 2022) Pp.11504-11504. DOI: 10.34910/MCE.115.4. [Google Scholar]
  39. Mohamad Hazwan et al., “Prediction of the flow-induced vibration response of the chenderoh dam left bank section” (in MatecWebofConferences, 2018) Pp. 1–12. https://doi.org/10.1051/matecconf/201821701001 [Google Scholar]
  40. D. Xia, Y. Liu, J. Liu, “Dynamic characteristics of soil-rockfill dam-dynamic-interaction (SRDI) system based on nonlinearity of soil” 2015. Pp. 1–17. doi: 10.11817/j.issn.1672-7207.2015.09.043. [Google Scholar]
  41. M. Ariyan, G. Habibagahi, E. Nikooee, “Seismic response of earth dams considering dynamic properties of unsaturated zone” (in E3S Webof Conferences. 9(08002), 2016) Pp. 1–16. doi: https://doi.org/10.1051/e3sconf/20160908002 [Google Scholar]
  42. Li. Qiaoyan et al., “Dynamic characteristics of tailings dam with geotextile tubes under seismic load” (J. Rev. Adv. Mater. Sci., 2021) Pp. 1–12. doi: https://doi.org/10.1515/rams-2021-0046. [Google Scholar]
  43. M. Raja and B. Maheshwari, “Behaviour of earth dam under seismic load considering nonlinearity of the soil” (J. Civ. Eng., vol. 6(2), 2016) pp.75–83. doi:10.4236/ojce.2016. 62007. [Google Scholar]
  44. E. Lo, L. Pelecanos, “Building dams on rock or soft soil – frequency-domain analysis of dynamic dam-foundation interaction” (in Proceedings of the 20th Biennial conference of the british dam society (20th BDS), Swansea, UK United Kingdom, 2018) Pp. 1–14, doi: 10.1680/sdar.64119.113. [Google Scholar]
  45. M.M. Mirsaidov, E.S. Toshmatov, “Spatial stress state and dynamic characteristics of earth dams” (Mag. Civ. Eng., vol. 89(5) 2019) Pp. 3-15. doi: 10.18720/MCE.89.1. [Google Scholar]
  46. B. Khusanov, O. Khaydarova, “Stress-strain state of earth dam under harmonic effect” (in E3S Web of Conferences, 2019) Pp. 4–17. https://doi.org/10.1051/e3sconf/20199705 043. [Google Scholar]
  47. T.Z. Sultanov et.al., “Strength assessment of earth dams.” (in MATEC Web of Conferences 265, 04015, 2019) Pp. 1–16. https://doi.org/10.1051/matecconf/201926504015 [CrossRef] [EDP Sciences] [Google Scholar]
  48. M.M. Mirsaidov, T.Z. Sultanov, J.A. Yarashov, “Strength of earth dams considering elastic-plastic properties of soil” (Mag. Civ. Eng., vol. 108(8). Ar, 2021) Pp. 1–11. doi:10.34910/ MCE.108.13. [Google Scholar]
  49. T.Z. Sultanov, D.A. Khodzhaev, M.M. Mirsaidov, “The assessment of dynamic behavior of heterogeneous systems taking into account non-linear viscoelastic properties of soil” (Mag. Civ. Eng., vol. 45(1), 2014) Pp. 80-89+117-118 [Google Scholar]
  50. R.R. Chugaev, Hydraulics. (Energoizdat L., 1982) P.203 [Google Scholar]
  51. M.A. Koltunov, A.S. Kravchuk, V.P. Mayboroda, "Applied mechanics of a deformable rigid body" (M.: Higher school, 1983) P.349 [Google Scholar]
  52. A.A. Ilyushin, B.E. Pobedrya, "Fundamentals of the mathematical theory of thermoviscoelasticity" (M.: Nauka, 1970) P.280 [Google Scholar]
  53. K. Bate, E. Wilson, "Numerical methods of analysis and FEM" (M.: Stroyizdat, 1982) P.448 [Google Scholar]
  54. A.R. Rzhanitsyn, "Creep Theory" (M.: Stroyizdat, 1968) P.416 [Google Scholar]
  55. M.M. Mirsaidov, T.Z. Sultanov, “Use of linear heredity theory of viscoelasticity for dynamic analysis of earth structures” (Soil Mech. Found. Eng., vol. 49, no. 6, 2013) Pp. 250-256. doi: 10.1007/s11204-013-9198-8 [CrossRef] [Google Scholar]
  56. N.A. Tsytovich, Z.G. Ter.-Martirosyan, "Fundamentals of Applied Geomechanics in construction" (M.: Higher school, 1981) P.317 [Google Scholar]

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