MANAGEMENT AND ECONOMIC EVALUATION OF CHOICE OF TECHNOLOGIES AND EQUIPMENT FOR TUNNEL CONSTRUCTION
The article deals with the issues of management and economic estimation of the costs of existing methods of construction of deep and shallow tunnels in order to increase their efficiency and improve the technical and operational and economic indicators of the consolidated structures.
Baranov, A. M. (2001). Theoretical basis of working processes of machines for filling of building mixtures. Doctor's Dissertation Abstract. Kharkiv: Hark state tech un-t bud-va and archit, 33. [in Ukrainian].
Bazaran, V. B., Deryagin, B. V., Bulggadev, A. V. (1966). Measurement of Shear Elasticity of Liquids and Boundary Layers by the Resonance Method. Journal of Experimental and theoretical physics, Vol. 51, No. 4 (10), 8-18. [in English].
Berga, L. (2003). Roller Compacted Concrete Dams. London: Taylor & Francis, 579–588. [in English].
Brener, V. A., Zhabin, A. B., Shchegolevsky, M. M., Polyakov, Al. V., Polyakov, An. V. (2009). Shield passage complexes. Moscow: Mountain Book. [in Russian].
European Specification for Sprayed Concrete, Guidelines for Specifiers and Contractors (EFNARC). (1999). Farnham: Association House, 31. [in English].
Garnets, V. M., Zaychenko, S. V. (1998). High-performance equipment for the production of hollow panels. Mining, construction, road and land reclamation machines. Kyiv: KNUBA, Vol. 52, 78 - 82. [in Ukrainian].
Gayko, G. I. (2006). Structures of fastening of underground structures. Alchevsk: DonSTU, 133. [in Ukrainian].
Greb'onkin, S. S., Pavlysh, V. M., Samoilov, V. L., Petrenko, J. A. (2008). Management of the state of rock massif. Donetsk: DonNTU. [in Ukrainian].
Hofler, J., Schlumpf, J. (2004). Shotcrete in Tunnel Construction. Aichtal: Reinhardt GmbH. [in English].
Kalinichev, V. P. (1988). Metropolitans. Moscow: Transport. [in Russian].
Khrapov, V. G., Demeshko, E. A., Naumov, S. N. (1989). Tunnels and Metro. Moscow: Transport, 383. [in Russian].
Korolev, N. E., Kuzin, V. N., Selivanov, S. A. (1970). Formation of reinforced concrete products by roller compression method. NIIZhB. Moscow: Stroyizdat, Issue 22, P. 32-38. [in Russian].
Krieger, N. I. (1965). Less, his properties and connection with the geographical environment. Moscow: Nauka, 295. [in Russian].
Lysikov, B. A., Rosenvasser, G. R., Shatalov, V. F. (2003). Construction of the underground and underground structures in the labor-intensive territories. Donetsk: Nord-Press, 304.
Marennyi, Y. I. (1963). Tunnel Furnaces from Compressed Monolithic Concrete. Moscow: Orgenergostroy, 156. [in Russian].
Salamakhin, P. M., Makovsky, L. V., …, Popov, V. I. (2007). Engineering structures in transport construction. (P. M. Salamakhina, Ed.). Moscow: Publishing Center "Akademiya. [in Russian].
Samedov, A. M., Kravets, V. G. (2011). Construction of Urban Underground Structures. Kyiv: NTUU KPI. [in Ukrainian].
Samoilov, V. P., Malitsky, V. S. (2004). The Newest Japanese Technique for Shield Tunneling of Tunnels. Reference and Information Edition. Moscow: Imperium Press: Publishing and Engineering, 227. [in Russian].
Sergeyev, E. M., Bykova, V. S., Komissarova, N. N. (Eds.). (1986). Forest wood of the USSR. Regional features. Moscow, T. 2. 276. [in Russian].
Sergeyev, E. M., Larionov, A. K., Komissarova, N. N. (Eds.). (1986). Forest wood of the USSR. Engineering and geological features and problems of rational use. Moscow, T. 1, 273. [in Russian].
Shevchuk, S. P., Garnets, V. M., Zaychenko, S.V., Matveev, O.V. (2001). Device for the construction of an underground structure. Pat. 58984 Ukraine, IPC E21D 9/06. Statement, Apr 26, Bul. No. 8, 2. [in Ukrainian].
Shevchuk, S. P., Zaichenko, S. V., Matveev, O. V. (2010). Device for the construction of an underground structure. Pat. 48800 Ukraine, IPC E21D 9/06. Statement, Apr 12, Bul. No. 7, 2. [in Ukrainian].
Shynkarenko, V. I. (1989). Perfection of the processes of roller forming of fine-grained concrete mixtures. (Candidate dissertation). Dnepropetrovsk, 305. [in Russian].
Svirschevsii, V. K. (n.d.) Boreholes in the soil by the method of the roller roller. Novosibirsk: Science, 121. [in Russian].
Timchenko, S. E. (2001). Justification of the parameters of intensification of the processes of jet bonding of rocks in the magnetic processing of cement solutions. Dissertation Abstract. National mountain acad. of Ukraine, 16. [in Ukrainian].
Vahedifard, F., Nili, M., and Meehan, C. L. (2010). Assessing the Effects of Supplementary Cementitious Materials on the Performance of Low-Cement Roller Compacted Concrete Pavement. Construction and Building Materials, Elsevier, 24 (12), 2528-2535. doi:10.1016/j.conbuildmat.2010.06.003. [in English].
Zaichenko, S. V., Oberekom, A. O., Garnets, V. M., Shevchuk, S. P. (2013). Device for the construction of an underground structure. Pat. 82271 of Ukraine, IPC E21D 9/06. Submitted, Feb 19, Bul. No. 14, 2. [in Ukrainian].
Zuevska, N. V. (2011). Scientific bases of formation of geotechnical properties of earthen massifs taking into account the hydrothermal factor. Doctor's Dissertation Abstract. Kyiv: National tech Unitary Enterprise of Ukraine "Kyiv Polytechnic Institute", 36. [in Ukrainian].
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