Skip to main content
SpringerLink
Log in

Development of the mechanics of underground and special structures in Kazakhstan over the last 40 years

  • Published:
International Applied Mechanics Aims and scope

Abstract

Some results on underground structures obtained by Kazakh mechanicians are reviewed. The review covers a period of the last forty years. Also results on the mechanics of special objects are discussed.

This is a preview of subscription content, log in via an institution to check access.

Access this article

Log in via an institution

Price excludes VAT (USA)
Tax calculation will be finalised during checkout.

Instant access to the full article PDF.

Institutional subscriptions

Similar content being viewed by others

REFERENCES

  1. M. G. Abuev, Sh. M. Aitaliev, T. M. Ermekov, N. B. Zhanbyrbaev, and M. A. Kayupov, “Studying the influence of shooting on the roof of mine workings,” Fiz.-Tekhn. Probl. Razrab. Polezn. Iskop., No. 6, 104–114 (1988).

  2. Sh. M. Aitaliev, “Problems of the mechanics of transportation structures on undermined territories,” Problems of Highways in Russia and Kazakhstan [in Russian], Omsk (2001), pp. 65–72.

  3. Sh. M. Aitaliev, “Offshore structures as advanced posts of development of the Caspian oil-and-gas fields,” Vestn. Inzh. Acad. RK, No. 2(10), 106–109 (2003).

  4. Sh. M. Aitaliev, “Do road-construction problems deserve a sound theoretical foundation?” Vestn. KazdorNII, No. 1, 3–7 (2004).

  5. Sh. M. Aitaliev, L. A. Alekseeva, Sh. A. Dil’dabaev, and N. B. Zhanbyrbaev, The Method of Boundary Equations in Dynamic Problems for Elastic Multiply Connected Bodies [in Russian], Gylym, Alma-Ata (1992).

    Google Scholar 

  6. Sh. M. Aitaliev, L. A. Alekseeva, and N. B. Zhanbyrbaev, “Boundary integral equations in dynamic elastic problems,” Vestn. AN KazSSR, No. 9, 46–50 (1985).

  7. Sh. M. Aitaliev and R. B. Baimakhan, “Modeling seismic actions on underground structures in stratified rock masses,” Geotechnical Problems of Construction, Architecture, and Ecology on the Threshold of the 21th Century [in Russian], Book 2, Astana (2000), pp. 657–659.

  8. Sh. M. Aitaliev, R. B. Baimakhan, and Zh. K. Masanov, “Drawing ground-shaking maps by an advanced technique,” Vestn. Inzh. Acad. RK, No. 1(6), 62–65 (2001).

  9. Sh. M. Aitaliev, R. B. Baimakhan, G. I. Salgaraeva, and M. T. Ukshebaev, “Joint seismic vibrations of station, escalator, and running subway tunnels,” Foundation Engineering under Complex Geotechnical Conditions [in Russian], St. Petersburg (2003), pp. 39–43.

  10. Sh. M. Aitaliev, N. V. Banichuk, and M. A. Kayupov, Optimal Design of Extended Underground Structures [in Russian], Nauka, Alma-Ata (1986).

    Google Scholar 

  11. Sh. M. Aitaliev, Sh. A. Dil’dabaev, and N. B. Zhanbyrbaev, “Distributions of a characteristic cone with a variable density function,” Dokl. NAN RK, No. 3, 3–10 (1993).

  12. Sh. M. Aitaliev and S. Kh. Dostanova, “Discontinuous shells for subway stations: statics and stability,” Izd. KazATK, Almaty (2003).

  13. Sh. M. Aitaliev, Zh. S. Erzhanov, T. N. Tsai, and L. M. Erofeev, “Comprehensive study of unsteady rock pressure in permanent tunnel workings,” Problems of Rock Mechanics [in Russian], Nauka, Alma-Ata (1966), pp. 11–20.

    Google Scholar 

  14. Sh. M. Aitaliev, M. E. Eskaliev, and Zh. K. Masanov, “Inelastic zone around a tunnel in an anisotropic rock mass,” in: Rock Pressure: Control and Monitoring Methods [in Russian], Ilim, Frunze (1979), pp. 157–164.

    Google Scholar 

  15. Sh. M. Aitaliev, V. Yu. Izakson, and A. I. Zakamaldin, “Rock masses near an asymmetric mine working,” Fiz.-Tekhn. Probl. Razrab. Polezn. Iskop., No. 3, 28–33 (1979).

  16. Sh. M. Aitaliev, E. A. Isakhanov, S. Kh. Dostanova, and K. E. Tokpanova, “Hardening creep analysis of the subsidence of the Almaty broadcasting tower,” Geotechnical Engineering Problems for Modern Structures and Monuments of Architecture [in Russian], Samarkand (2002), pp. 90–92.

  17. Sh. M. Aitaliev and A. I. Iskakbaev, “Approximate analysis of hereditary creep and long-term strength of rock with allowance for its damageability,” Topical Problems of Solid Mechanics [in Russian], part 1, Gylym, Alma-Ata (1992), pp. 32–47.

    Google Scholar 

  18. Sh. M. Aitaliev, K. K. Kaidarov, and V. P. Matveeva, “Stress state of a crosscut in a viscoelastic rock mass with poorly bonded layers,” Physics of Rock and Associated Processes [in Russian], Izd. MGI, Moscow (1971).

    Google Scholar 

  19. Sh. M. Aitaliev and S. Yu. Karinskii, “Approximate design of failure zones for a mine roadway,” Current Problems of Rock Mechanics [in Russian], Nauka, Leningrad (1972), pp. 72–76.

    Google Scholar 

  20. Sh. M. Aitaliev and Yu. S. Karinskii, “Vibrations of a precast junction support in tunnel workings,” Fiz.-Techn. Probl. Razrab. Polezn. Iskop., No. 3, 6–12 (1990).

  21. Sh. M. Aitaliev, A. K. Kudaikulov, and B. M. Mardonov, Mechanics of Drill String Sticking in Oil-and-Gas Wells [in Russian], Évero, Atyrau-Almaty (1999).

    Google Scholar 

  22. Sh. M. Aitaliev, V. P. Makarov, and K. Sh. Uataev, “Stress state of a randomly inhomogeneous anisotropic medium,” Vestn. AN KazSSR, No. 9, 36–40 (1984).

  23. Sh. M. Aitaliev and Zh. K. Masanov, “Stress-strain state of an arbitrary-profile cross-entry,” Problems of Rock Mechanics [in Russian], Nauka, Alma-Ata (1972), pp. 51–52.

    Google Scholar 

  24. Sh. M. Aitaliev and Zh. K. Masanov, “Calculating rock pressure for differently oriented tunnels,” Rock Pressure in Permanent and Development Mine Workings [in Russian], Izd. IGD SO AN SSSR, Novosibirsk (1973), pp. 21–26.

    Google Scholar 

  25. Sh. M. Aitaliev and Zh. K. Masanov, “Stress states of an entry and a crosscut depending on the type of contact between anisotropic layers,” Rock Mechanics [in Russian], Nauka, Alma-Ata (1975), pp. 125–145.

    Google Scholar 

  26. Sh. M. Aitaliev, Zh. K. Masanov, and L. B. Atymtaeva, “Diffraction of stationary SH-waves by a tunnel of arbitrary profile in a transport rock mass,” Theoretical and Applied Mechanics [in Russian], Issue 35, Osnova, Kharkov (2002), pp. 169–175.

    Google Scholar 

  27. Sh. M. Aitaliev, Zh. K. Masanov, and I. B. Baimakhanov, “Design of an underground structure in an anisotropic rock mass subjected to long-wave seismic action,” Izv. AN KazSSR, Ser. Fiz. Mat., No. 5, 43–46 (1984).

  28. Sh. M. Aitaliev, Zh. K. Masanov, and I. B. Baimakhanov, “Design of lining for a mine working in a fine-stratified rock mass subjected to a long-wave seismic load,” Stability and Support of Mine Workings [in Russian], TulPTI, Tula (1986), pp. 108–115.

    Google Scholar 

  29. Sh. M. Aitaliev, Zh. K. Masanov, and I. B. Baimakhanov, “FEM in seismic stability analysis of underground structures based on a given accelerogram,” Numerical Methods for Stability Analysis of Underground Structures [in Russian], Nauka, Apatity (1988), pp. 47–50.

    Google Scholar 

  30. Sh. M. Aitaliev, Zh. K. Masanov, I. B. Baimakhanov, and N. M. Makhmetova, “FEM: seismostressed state of twin tunnels,” Numerical Methods in Solid Mechanics [in Russian], Karaganda (1987), pp. 3–15.

  31. Sh. M. Aitaliev, Zh. K. Masanov, I. B. Baimakhanov, and N. M. Makhmetova, “The finite-element method in seismic stability analysis of underground structures in complex rock mass,” in: Problems of Computational Mathematics and Computer-Aided Scientific Research [in Russian], Vol. 1, Nauka, Alma-Ata (1988).

    Google Scholar 

  32. Sh. M. Aitaliev, Zh. K. Masanov, I. B. Baimakhanov, and A. K. Urazbekov, “Finite-element design of transportation structures subjected to various loads: methods, algorithms, and software,” Material Strength Problems for Transportation Structures [in Russian], Izd. AlIIT, Alma-Ata (1992), pp. 26–28.

    Google Scholar 

  33. Sh. M. Aitaliev, Zh. K. Masanov, E. T. Bozhanov, I. N. Dyusembaev, and M. Zh. Nigmetov, “Steady functioning of engineering structures on the shelf of the Kazakhstan portion of the Caspian Sea,” Oil and Gas, Bioresources and Ecology of the Caspian Sea (Abstracts of the 3rd Assembly of the Association of Caspian Sea Region State Universities) [in Russian], Izd. Akt. Univ., Aktau (1998), pp. 7–8.

    Google Scholar 

  34. Sh. M. Aitaliev, Zh. K. Masanov, E. T. Bozhanov, I. N. Dyusembaev, and K. V. Sivolapov, “Experimental determination of the physicomechanical characteristics and elastic properties of rock in the Caspian Sea region,” Geotechnical Problems of Construction, Architecture, and Ecology on the Threshold of the 21th Century [in Russian], Vol. 1, Astana (2000), pp. 45–47.

    Google Scholar 

  35. Sh. M. Aitaliev, Zh. K. Masanov, I. N. Dyusembaev, M. Zh. Nigmetov, and V. K. Sivolapov, “Stress-strain state of an offshore-structure-seabed system under creep conditions in bed rock,” Transport of Eurasia: A Look into the 21st Century [in Russian], Vol. 2, Izd. KazATK, Almaty (2002), pp. 132–135.

    Google Scholar 

  36. Sh. M. Aitaliev, Zh. K. Masanov, I. N. Dyusembaev, and K. V. Sivolapov, “Laboratory research into the creep of East Caspian rocks with allowance for natural humidity,” Transport of Eurasia: A Look into the 21st Century [in Russian], Vol. 2, Izd. KazATK, Almaty (2002), pp. 138–140.

    Google Scholar 

  37. Sh. M. Aitaliev, Zh. K. Masanov, and N. M. Makhmetova, “Seismic stability of subway station lining,” Transp. Stroit., No. 11, 27–29 (1991).

  38. Sh. M. Aitaliev, Zh. K. Masanov, N. M. Makhmetova, and A. K. Urazbekov, “Stability and seismic resistance of extended railroad structures,” Izv. NAN RK, No. 3, 3–10 (1993).

  39. Sh. M. Aitaliev, N. I. Mironenko, and M. E. Tumanova, “Stress states of a strip and a plane with three circular holes,” Applied Problems of Strength and Plasticity [in Russian], Izd. GGU, Gorky (1988), pp. 15–19.

    Google Scholar 

  40. Sh. M. Aitaliev, V. P. Mikhailov, and P. I. Shilkin, “Selecting a rational technique for supporting tunnels in sedimentary rock of the Baley deposit,” Fiz-Tekhn. Probl. Razrab. Polezn. Iskop., No. 2, 3–9 (1971).

  41. Sh. M. Aitaliev and T. M. Mukhamediyarov, Loads on the Lining of the Dzhezkazgan Wells and Its Optimal Characteristics [in Russian], Information List No. 414 (2015), Ser. 07.08, KazNIINTI, Alma-Ata (1976).

    Google Scholar 

  42. Sh. M. Aitaliev, K. Kh. Nugmanov, and T. M. Mukhamediyarov, Dzhezkazgan Mine 65-Bis: Crushing-Shop Support Failure Cause Analysis [in Russian], Express Information No. 156 (393), Ser. 07.08, KazNIINTI, Alma-Ata (1977).

    Google Scholar 

  43. Sh. M. Aitaliev and A. A. Takishov, “Controlling arch formation in room-and-pillar mining,” Fiz.-Tekhn. Probl. Razrab. Polezn. Iskop., part 1, No. 2, 5–14; part 2, No. 3, 24–28 (2000).

  44. Sh. M. Aitaliev and A. A. Takishov, “Disintegration concept and its implementation in deep-level mining,” Current Concepts in Rock Mechanics [in Russian], Ilim, Bishkek (2001), pp. 50–56.

    Google Scholar 

  45. Sh. M. Aitaliev, M. K. Tuebaev, and Zh. O. Otarbaev, “Interaction of two punches rigidly coupled with a laminated half-plane with a circular hole,” Izv. AN KazSSR, Ser. Fiz.-Mat., No. 5, 66–69 (1985).

  46. Sh. M. Aitaliev and M. T. Ukshebaev, “Almaty subway as a unique transportation facility,” Magistral’, No. 10, 7–8 (2001).

  47. Sh. M. Aitaliev and Kh. Zh. Khalmanov, “Crack in a rock mass as a structural element, means for controlling rock pressure, and a link in the mining process,” Vestn. AN KazSSR, No. 9, 42–50 (1988).

  48. Sh. M. Aitaliev and Kh. Zh. Khalmanov, “Crack mechanics in pillar load control,” Fiz.-Tekhn. Probl. Razrab. Polezn. Iskop., No. 2, 9–14 (1989).

  49. L. A. Alekseeva, “Stationary diffraction of waves by a circular hole in an elastic half-plane,” Prikl. Mat. Mekh., 49, No. 2, 299–306 (1985).

    Google Scholar 

  50. L. A. Alekseeva, “Stationary vibrations of an elastic half-space with a circular cylindrical cavity under periodic loading,” Prikl. Mat. Mekh., 51, No. 5, 836–843 (1987).

    Google Scholar 

  51. L. A. Alekseeva, “Boundary integral equations for an elastic half-plane with a hole under dynamic edge loads,” Izv. AN KazSSR, Ser. Fiz. Mat., No. 3, 57–62 (1987).

  52. L. A. Alekseeva, “Action of stationary moving loads in elastic half-space,” Mat. Zh., 3, No. 1(7), 18–25 (2003).

    Google Scholar 

  53. L. A. Alekseeva and V. N. Ukrainets, “Critical velocity of a load moving in a tunnel reinforced with a two-layer shell,” Izv. AN SSSR, Mekh. Tverd. Tela, No. 4, 156–162 (1987).

  54. L. A. Alekseeva and V. V. Shershnev, “Stress-strain state of a circular cylindrical cavity in elastic and multicomponent media scattering stationary waves,” Mechanics of Tectonic Processes [in Russian], Nauka, Alma-Ata (1983), pp. 122–132.

    Google Scholar 

  55. L. A. Alekseeva and V. V. Shershnev, “Seismostressed state of the concrete lining of an underground structure,” Results of Comprehensive Survey in Seismic Regions of Kazakhstan [in Russian], Nauka, Alma-Ata (1984), pp. 155–163.

    Google Scholar 

  56. M. T. Alimzhanov, Stability of Equilibrium and Problems of Rock Mechanics [in Russian], Nauka, Alma-Ata (1982).

    Google Scholar 

  57. Zh. S. Erzhanov, Sh. M. Aitaliev, N. Zh. Zhubaev, S. Yu. Karinskii, and A. Ya. Sinyaev, Analytical Problems of Rock Mechanics [in Russian], Nauka, Alma-Ata (1969).

    Google Scholar 

  58. B. B. Atymtaev, “Finite-element analysis of the stress-strain state of a lateral working in the stope influence zone,” Physical and Engineering Problems of Mining and Mineral Benefication [in Russian], Nedra, Moscow (1980), pp. 115–118.

    Google Scholar 

  59. R. B. Baimakhan, “Componentwise recording of accelerograms for severe earthquakes,” Geotechnical Problems of Construction, Architecture, and Ecology on the Threshold of the 21th Century [in Russian], Book x1, Astana (2000), pp. 348–350.

  60. R. B. Baimakhan, “Drawing ground-shaking maps with finite-element discretization of territory,” Book 2, Astana (2000), pp. 667–669.

    Google Scholar 

  61. R. B. Baimakhan, “Developing the model of obliquely stratified rock mass for stability analysis of oblique underground structures,” Academician Sh. Esenov and His Role in the Development of Science, Technology, and Natural Resources of Kazakhstan [in Russian], Izd. AktUntet, Aktau (2002), pp. 299–304.

    Google Scholar 

  62. R. B. Baimakhan, Finite-Element Seismostress Analysis of Underground Structures in an Inhomogeneous Rock Mass [in Russian], Dauir, Almaty (2002).

    Google Scholar 

  63. Zh. B. Bakirov, Design of Disk-Shaped Actuators Subjected to Random Loads [in Russian], Izd. KarGTU, Karaganda (1999).

    Google Scholar 

  64. Zh. B. Bakirov, Probabilistic Methods for Design of Structural Members [in Russian], Izd. KarGTU, Karaganda (2001).

    Google Scholar 

  65. S. A. Batugin and R. K. Nirenburg, “Approximate dependence between the elastic constants of anisotropic rock and anisotropy parameters,” Fiz.-Tekhn. Probl. Razrab. Polezn. Iskop., No. 1, 7–11 (1972).

  66. Ya. V. Bykov and A. I. Batashev, “Application of the Volterra-Rabotnov principle in applied problems,” Problems of Rock Mechanics [in Russian], Nauka, Alma-Ata (1966).

    Google Scholar 

  67. N. S. Bulychev, Mechanics of Underground Structures [in Russian], Nedra, Moscow (1982).

    Google Scholar 

  68. A. N. Guz, “Establishing the fundamentals of the theory of stability of mine workings,” Int. Appl. Mech., 39, No. 1, 20–48 (2003).

    Google Scholar 

  69. A. N. Guz, “Design models in linearized solid mechanics,” Int. Appl. Mech., 40, No. 5, 506–516 (2004).

    Google Scholar 

  70. A. N. Guz, V. D. Kubenko, and M. A. Cherevko, Diffraction of Elastic Waves [in Russian], Naukova Dumka, Kiev (1978).

    Google Scholar 

  71. Sh. A. Dildabaev, “Indirect formulation of the boundary integral equation method in nonstationary dynamics of elastoplastic media,” Proc. 1st Rep. Congr. on Theoretical and Applied Mechanics [in Russian], part 2, Izd. IMMash, Almaty (1996), p. 199.

    Google Scholar 

  72. Sh. A. Dil’dabaev and G. K. Zakir’yanova, “Fundamental solutions of the first and second boundary-value dynamic problems for an elastic anisotropic half-plane,” Izv. NAN RK, Ser. Fiz.-Mat., No. 5, 65–70 (1993).

  73. A. N. Dinnik, A. B. Morgaevskii, and G. N. Savin, “Stress distribution around mine workings,” Proc. Meeting on Rock Pressure Control [in Russian], Izd. AN SSSR, Moscow (1938).

    Google Scholar 

  74. Zh. S. Erzhanov, Rock Creep Theory and Its Applications [in Russian], Nauka, Alma-Ata (1964).

    Google Scholar 

  75. Zh. S. Erzhanov, Sh. M. Aitaliev, and L. A. Alekseeva, Dynamics of Tunnels and Underground Pipelines [in Russian], Nauka, Alma-Ata (1989).

    Google Scholar 

  76. Zh. S. Erzhanov, Sh. M. Aitaliev, and Zh. K. Masanov, Stability of Tunnels in an Obliquely Stratified Rock Mass [in Russian], Nauka, Alma-Ata (1971).

    Google Scholar 

  77. Zh. S. Erzhanov, Sh. M. Aitaliev, and Zh. K. Masanov, Seismostressed State of Underground Structures in an Anisotropic Stratified Rock Mass [in Russian], Nauka, Alma-Ata (1980).

    Google Scholar 

  78. Zh. S. Erzhanov, Sh. M. Aitaliev, and Zh. K. Masanov, “Long-wave seismic effect in entries, crosscuts, and cross-entries,” Stability and Support of Mine Workings (Interuniversity Collection) [in Russian], Issue 6, Izd. LGI, Leningrad (1980), pp. 128–130.

    Google Scholar 

  79. Zh. S. Erzhanov, Sh. M. Aitaliev, N. I. Mironenko, M. K. Tuebaev, and A. K. Kazeshev, “Stress analysis of in-seam workings for rock burst prediction,” Rock Bursts: Methods of Assessment and Control [in Russian], Ilim, Frunze (1979), pp. 51–58.

    Google Scholar 

  80. Zh. S. Erzhanov, Sh. M. Aitaliev, and M. K. Tuebaev, Stability of In-Seam Mine Workings [in Russian], Nauka, Alma-Ata (1977).

    Google Scholar 

  81. Zh. S. Erzhanov, Sh. M. Aitaliev, and P. I. Shilkin, Design of Sprayed-Concrete Lining [in Russian], Nedra, Moscow (1971).

    Google Scholar 

  82. Zh. S. Erzhanov, K. K. Kaidarov, and M. T. Tusupov, “Rock mass with poorly bonded strata (plane problem),” Mechanical Processes in a Rock Mass [in Russian], Nauka, Alma-Ata (1969), pp. 3–14.

    Google Scholar 

  83. Zh. S. Erzhanov, I. D. Molyukov, and V. A. Sapa, “Research on mechanics,” The Great October and Science of Kazakhstan [in Russian], Nauka, Alma-Ata (1967), pp. 102–112.

    Google Scholar 

  84. T. M. Ermekov, K. K. Tulebaev, and Sh. A. Dil’dabaev, “Stress state of rib pillars in secondary development of close deposits,” Geotechnology on the Threshold of the 21th Century [in Russian], Izd. IGD SO RAN, Novosibirsk (1999), pp. 110–111.

    Google Scholar 

  85. T. M. Ermekov, K. K. Tulebaev, and Sh. A. Dil’dabaev, “Stress-strain analysis of elements of mine workings in an inclined seam,” Current Concepts in Rock Mechanics [in Russian], Ilim, Bishkek (2002), pp. 101–110.

    Google Scholar 

  86. M. E. Eskaliev, “Influence of rock dilatancy on the elastoplastic state of a mine working in a transport rock mass,” Izv. NAN RK Ser. Fiz. Mat., No. 3, 72–78 (1996).

  87. N. T. Zhadrasinov, Nonlinear Deformation of Compound Shells [in Russian], Gylym, Almaty (1998).

    Google Scholar 

  88. K. M. Zhasimov and E. A. Isakhanov, “Study into the deformation of the subfoundation of the Alma-Ata broadcasting tower,” Foundation Engineering [in Russian], Izd. PPTI, Perm (1980), pp. 193–194.

    Google Scholar 

  89. A. Zh. Zhusupbekov, Construction Properties of Subfoundations on Undermined Territories [in Russian], Gylym, Almaty (1994)

    Google Scholar 

  90. A. Zh. Zhusupbekov, N. Zh. Kuanyshaliev, A. S. Zhakulin et al., “Geotechnical problems of the Karachagan gas-condensate field (GP2),” Geotechnical Problems of Construction, Architecture, and Ecology on the Threshold of the 21th Century [in Russian], Book 2, Astana (2000), pp. 827–831.

  91. E. A. Isakhanov, Rheological Properties of Firm Clay Soil and Structural Design [in Russian], Izd. KazATK, Almaty (2000).

    Google Scholar 

  92. E. A. Isakhavand K. B. Kalabaev, “Foundation subsidence prediction for the Alma-Ata broadcasting tower,” Seismic Stability Analysis of Structures [in Russian] Issue14-1524-25 KazpromstroiNIIproekt Alma-Ata (1986), pp. 123–1

    Google Scholar 

  93. Yu. S. Karinskii, “Dynamic behavior of a rigid-perfectly plastic beam,” Vestn. MGU, Ser.I, Mat. Mech., No. 1, 85–89 (1986).

  94. A. S. Kosmodamianskii, Stress State of Anisotropic Media with Holes and Cavities [in Russian], Vyshcha Shkola, Kiev-Donetsk (1976).

    Google Scholar 

  95. A. S. Kosmodamianskii and V. I. Storozhev, Dynamic Problem of Elasticity for Anisotropic Media [in Russian], Naukova Dumka, Kiev (1985).

    Google Scholar 

  96. Sh. M. Aitaliev, R. B. Baimakhan, M. T. Ukshebaev et al., “Seismic stability analysis of the Almaty Subway based on corrected seismic conditions of the region,” Important Problems of the Transport-Communication System on the Threshold of the Third Millennium [in Russian], Izd. AIÉS, Almaty (2001), pp. 174–178.

    Google Scholar 

  97. V. D. Kupradze, “Boundary-value problems of elasticity for piecewise-inhomogeneous bodies,” Soobshch. AN GruzSSR, 22, No. 2–5 (1959).

    Google Scholar 

  98. É. N. Kurako and E. A. Isakhanov, “Geodetic survey of the subsidence of the Almaty broadcasting tower,” Scientific Collection [in Russian], AlIIT, Almaty (1993), pp. 161–163.

    Google Scholar 

  99. S. G. Lekhnitskii, Theory of Anisotropic Body [in Russian], ONTI, Moscow (1950).

    Google Scholar 

  100. Z. K. Masanov, “Seismostressed state of a lined tunnel of asymmetric profile and arbitrary orientation in an obliquely stratified rock mass,” Mechanics of Hillsides, Slopes, and Underground Structures. Development of Underground Space [in Russian], Ilim, Bishkek (1991), pp. 255–262.

    Google Scholar 

  101. Zh. K. Masanov and L. B. Atymtaeva, “Stationary dynamics of a traffic tunnel with rigid lining in an anisotropic rock mass under antiplane deformation,” Vestn. Kaz. ATK, No. 1, 47–52 (2000).

  102. Zh. K. Masanov and I. B. Baimakhanov, “An algorithm for constructing the stiffness matrix of the finite-element system in the three-dimensional theory of elasticity,” Izv. AN KazSSR, Ser. Fiz.-Mat., No. 3, 24–31 (1977).

  103. C. C. Mow and L. J. Mente, “Dynamic stresses and displacements around cylindrical discontinuities due to plane harmonic shear waves,” Trans. ASME, J. Appl. Mech., 30, No. 4, 598–604 (1963).

    Google Scholar 

  104. P. V. Melent’ev, Approximate Calculation [in Russian], FM, Moscow (1962).

    Google Scholar 

  105. Sh. M. Aitaliev, R. B. Baimakhan, M. E. Eskaliev, M. T. Ukshebaev, S. R. Esimkhanov et al., “Almaty Subway: seismic stability problems of tunnels and prospects for resumed construction,” Transport of Eurasia: A Look into the 21th Century [in Russian], Izd. KazATK, Almaty (2000), pp. 123–128.

    Google Scholar 

  106. N. I. Mironenko, “Stress state of a strip with two transversely aligned identical circular holes,” Prikl. Mat. Mekh., 42, No. 5, 930–935 (1978).

    Google Scholar 

  107. N. I. Mironenko, “Stress state of a strip with two longitudinally aligned circular holes,” Prikl. Mekh., 16, No. 4, 95–100 (1980).

    Google Scholar 

  108. N. I. Mironenko, “Modified Sherman’s method,” Izv. AN SSSR, Mekh. Tverd. Tela, No. 4, 143–147 (1987).

  109. S. G. Mikhlin, “Plane elastic problem for an inhomogeneous medium,” Tr. Seismolog. Inst. AN SSSR, No. 66 (1935).

  110. N. I. Muskhelishvili, Some Fundamental Problems in the Mathematical Theory of Elasticity [in Russian], Nauka, Moscow (1966).

    Google Scholar 

  111. A. D. Omarov, Zh. K. Masanov, and I. M. Makhmetova, “Static and seismostressed state of underground transportation structures in an anisotropic geometrically nonlinear rock mass,” Izd. KazATK, Almaty (2002).

    Google Scholar 

  112. Zh. S. Erzhanov, P. Knol, A. Ya. Sinyaev et al., Fundamentals of the Strength Analysis of Underground Structures in Fissured Rock [in Russian], Nauka, Alma-Ata (1978).

    Google Scholar 

  113. Y. H. Pao, “Dynamic stress concentration in an elastic plate,” J. Appl. Mech., 29, 299–305 (1962).

    Google Scholar 

  114. Sh. M. Aitaliev, M. T. Ukshebaev, A. Zh. Zhusupbekov et al., “Problems of constructing the Almaty Subway under complex earth conditions,” An Underground City: Technology and Architecture [in Russian], Izd. TAR, St. Petersburg (1998), pp. 221–223.

    Google Scholar 

  115. Yu. N. Rabotnov, “Equilibrium of an elastic medium with aftereffect,” Prikl. Mat. Mekh., 12, No. 1, 53–63 (1948).

    Google Scholar 

  116. Sh. M. Aitaliev, K. B. Aldamzharov, Sh. A. Garagash, Zh. S. Erzhanov et al., Rheology and Seismomechanics of Rock Mass [in Russian], Nauka, Alma-Ata (1984).

    Google Scholar 

  117. M. I. Rozovskii, “Some features of hereditary-elastic media,” Izv. AN SSSR, Mekh. Mashinostr., No. 2 (1961).

  118. M. I. Rozovskii and A. N. Zorin, “Application of integral operators to determine the stresses and displacements at the boundary of an underground structure with allowance for the factors of time and anisotropy,” Problems of Rock Mechanics [in Russian], Nauka, Alma-Ata (1966), pp. 365–372.

    Google Scholar 

  119. G. N. Savin, “Influence of support on the stress distribution near narrow underground workings,” Zapiski Inst. Gorn. Mekh. AN USSR, No. 5 (1947).

  120. G. N. Savin, Stress Concentration around Holes [in Russian], GITTL, Moscow-Leningrad (1951).

    Google Scholar 

  121. A. A. Sarsembaev, A. Ya. Sinyaev, V. P. Matveeva, and E. F. Kudashov, “Determining elastic and live-load strains in laminated samples,” Research on Rock Mechanics [in Russian], Nauka, Alma-Ata (1965), pp. 114–119.

    Google Scholar 

  122. A. A. Takishov, Controlling the State of Superincumbent Rock and Supporting Pillars [in Russian], Kompleks, Almaty (2001).

    Google Scholar 

  123. B. B. Teltaev, Strains and Stresses in Nonrigid Road Structures [in Russian], Évero, Almaty (1999).

    Google Scholar 

  124. M. K. Tuebaev and Zh. O. Otarbaev, “Elastic equilibrium of a strip with a longitudinal crack under arbitrary forces,” Mechanics of Tectonic Processes [in Russian], Nauka, Alma-Ata (1983), pp. 176–185.

    Google Scholar 

  125. M. K. Tuebaev, Zh. O. Otarbaev, A. K. Kazeshev, and N. A. Adilbekov, “The superposition method in the fundamental problems of elasticity for a laminated half-plane with holes,” Abstracts of Papers Read at the 8th Kazakhst. Inter. Sci. Conf. on Mathematics and Mechanics [in Russian], Izd. KazGU, Alma-Ata (1984), p. 112.

    Google Scholar 

  126. K. Sh. Uataev, “Solving a plane boundary-value problem for randomly inhomogeneous bodies by the spectral representation method,” Vestn. AN KazSSR, No. 10, 69–71 (1983).

  127. N. N. Fotieva, Support Design for Underground Structures in Seismic Regions [in Russian], Nedra, Moscow (1980).

    Google Scholar 

  128. N. P. Sheremet’ev, Plate with a Reinforced Edge [in Russian], Lvov (1960).

  129. D. I. Sherman, “Static plane problem of elasticity for isotropic inhomogeneous media,” Tr. Seismolog. Inst., No. 86 (1938).

  130. P. I. Shilkin, Sh. M. Aitaliev, and V.P. Mikhailov, “Rational support for easily weathered rock,” Gorn. Zh., No. 9, 34–36 (1970).

    Google Scholar 

  131. Sh. M. Aitalyev, K. N. Amanniyazov, A. S. Akhmetov, and R. B. Baimakhan, “Caspian region geodynamics and possible ecological consequence of large-scale oil extraction,” Abstracts of papers read at Japan-Kazakhstan Joint Geotechn. Semin. on Regional Development and Geotechnical Engineering, Tokyo (2003), pp. 32–33.

  132. Sh. M. Aitalyev, K. N. Amanniyazov, and R. B. Baimakhan, “Geodinamics of Caspian Pound region with elements of large-scale geotechnical modeling,” Proc. Int. Conf. on Coastal Geotechnical Engineering in Practice, Atrau (2002), pp. 291–295.

  133. Sh. M. Aitalyev, R. B. Baimakhan, and M. T. Ukhebaev, “On seismic conditions territory and seismic stability of Almaty underground,” Proc. Kazakhstan-Japan Joint Geotechn. Seminar, Astana (2001), pp. 98–108.

  134. Sh. M. Aitalyev, R. B. Baimakhan, and A. A. Sydykov, “Development of shakability maps for the Caspian Basin,” Proc. 12th Asian Regional Conf. on Soil Mechanics and Geotechnical Engineering, Vol. 1, Singapur (2003), pp. 271–273.

    Google Scholar 

  135. Sh. M. Aitalyev, E. A. Isachanov, B. B. Teltaev, and S. M. Bittibaev, “To the investigation of stressed deformed of a road embankment and its foundation taking into account non-linear deformation and creeping near of the ground,” Proc. 15th Int. Conf. on Soil Mechanics and Geotechnical Engineering, Istambul, Turkey, 3, 2097–2100 (2001).

    Google Scholar 

  136. Sh. M. Aitalyev, Sh. K. Karymsakova, and K. U. Karymsakov, “Wave process of loading and unloading in elastic-plastic medium subjected to dynamic force,” Proc. Int. Conf. on Coastal Geotechnical Engineering in Practice, Atray (2002), pp. 296–300.

  137. Sh. M. Aitalyev and Kh. G. Khalmanov, “Fracture mechanics in pillar loading control,” Proc. 11th Plenary Session of the Int. Bureau of Stratum Mechanics, World Mining Congress(Novosibirsk, June 5-9, 1989), Strata Control in Deep Mines, A. A. Baakema, Rotterdam, Brookfield (1990), pp. 79–85.

    Google Scholar 

  138. Sh. M. Aitalyev, B. M. Mardonov, and J. J. Zhanzakov, “Rotation of a drill column in wells in conditions of sticking,” Proc. Rep. Sci. Conf. on Current Problems of Wave Propagation in Multiphase Liquid Compounds and Continua[in Uzbek], Tashkent (1999), pp. 27–30.

  139. Sh. M. Aitalyev, Z. O. Otarbayev, K. S. Bizhanov, and A. Zh. Zhusupbekov, “Prognosis of building properties change of multiple undermined foundations footings of buildings and constructions,” Proc. 9th Reg. Conf. on Mechanics of Soil and Foundations [in Polish], Krakow (1990), pp. 311–317.

  140. Sh. M. Aitalyev and B. B. Teltaev, “Influence evaluation of the isolated interlayer on motorcar roads in salinized soft soils,” Proc. Int. Symp. on Problematic Soils, Vol. 1, Rotterdam (1998), pp. 773–776.

    Google Scholar 

  141. Sh. M. Aitalyev, M. T. Ukshebayev, and R. B. Baimakhan, “Geotechnical problems at during time of construction of Almaty subway,” Abstracts of Papers Read at Japan-Kazakhstan Joint Geotechnical Seminar on Regional Development and Geotechnical Engineering, Tokyo (2003), p. 7.

  142. Sh. M. Aitalyev, T. M. Yermekov, A. B. Yun, and M. Zh. Satov, “Analytical investigation of overburden rock strata movement during monitoring of rock massif at stage of finishing of ore,” Proc. 17th Int. Mining Congress and Inhibition of Turkey, Ankara (2001), pp. 349–351.

  143. Sh. M. Aitalyev and N. T. Zhadrasinov, “Package of application programs for solving of some geotechnical problems,” Proc. Kazakhstan-Japan Joint Geotechnical Seminar, Astana (2001), p. 109.

  144. Sh. S. Ershanow, Sc h. M. Aitaliew, and A. I. Sinjaew, “Berechnungsmethodick für den Spritzbetonausbau in geschichteten Gebirge,” Neue Bergbautechnik, No. 5, 344–346 (1975).

  145. R. A. Schapery, “A method of viscoelastic stress analysis using elastic solutions,” J. Franklin Inst., 279, No. 4, 268–289 (1965).

    Google Scholar 

  146. B. B. Teltayev, D. A. Idrisov, N. K. Kudreyev, and Sh. M. Aitalyev, “Accounting of distance influence between vehicle wheels over stressed-deformed road constructions,” Proc. Int. Conf. on Enhancement and Promotion of Computational Methods in Engineering and Science, Vol. 2, Lisbon (1999), pp. 1239–1244.

    Google Scholar 

Download references

Author information

Authors and Affiliations

  1. Institute of Mechanics and Machine Science, Ministry of Education and Science of the Republic of Kazakhstan, Almaty

    Sh. M. Aitaliev

Authors
  1. Sh. M. Aitaliev
    View author publications

    You can also search for this author in PubMed Google Scholar

Additional information

Translated from Prikladnaya Mekhanika, Vol. 40, No. 10, pp. 3–36, October 2004.

Rights and permissions

Reprints and permissions

About this article

Cite this article

Aitaliev, S.M. Development of the mechanics of underground and special structures in Kazakhstan over the last 40 years. Int Appl Mech 40, 1065–1091 (2004). https://doi.org/10.1007/s10778-005-0012-9

Download citation

  • Received:

  • Issue Date:

  • DOI: https://doi.org/10.1007/s10778-005-0012-9

Keywords

Search

Navigation