International Journal of Progressive Sciences and Technologies

Аннотация. В статье выполнен анализ проведенных ранее работ по исследованиям совместных деформаций гидротехнических сооружений и их просадочных оснований и  на основе этого намечены основные направления по дальнейшему развитию методов прогнозирования напряженно-деформатив- ного их состояния.

Ключевые слова: деформации, гидротехнические сооружения, просадочность, деформируемая зона,  механика грунтов, влажность грунт, относительная просадка.

Abstract – The article analyzes the earlier work on the study of joint deformations of hydraulic structures and their subsidence foundations, and on this basis, outlined the main directions for the further development of methods for predicting their stress-strain state.

Keywords – Deformation, Hydraulic Structures, Subsidence, Deformed Zones, Soil Mechanics, Soil Moisture, Relative Subsidence.

Abelev Yu.M. Study of the influence of the shape and size of foundations in the plan on the value of subsidence. - In the book: Construction on additive and swelling soils. M .: Gosstroyizdat, 1961, issue 46, p.28-34.

Abelev Yu.M., Abelev M.Yu. Fundamentals of design and construction on subsiding macroporous soils. Moscow: Stroyizdat, 1968. -431 p.

Zhakapbaeva G.A. Improvement of design techniques for irrigation systems on collapsible soils on joint ultimate deformations. Author's abstract. dissertation for the degree of academic degree Cand. tech. sciences. M., MGUP. - 2001. - 20 p.

Bandurin, M.A., Diagnostics of the technical state and assessment of the residual service life of water-supplying structures of irrigation systems, Dissertation for the degree of Doctorate in Engineering Science, Moscow, MGUP-2017, 285 p.

Volosukhin V.A. Factors determining the safety of hydraulic structures for water management purposes.Nauka and safety.-2014.-No.3 (12) .- P.7-8.

Gilman Y.D. Improvement of methods for calculating loess bases for limiting states. In the book: Design and construction of buildings and structures on loess subsidence soils. Report. Vol. 2, Barnaul, 1980, pp. 51-57.

Dokin V.A., Frolov N.N. Classification of hydraulic structures of irrigation systems on loess soils by the nature of their interaction with subsidence bases. - In the book: Hydraulic structures, foundations and foundations. Moscow: MGMI, 1979.T. 62, p. 90-94.

Zasov S.V. Transformation of stresses and wetted loess bases when loaded with stamps. –V kN .: Design and operation of reclaimed lands in the North Caucasus. M .: Rosgiprovodkhoz. 1979. Issue. 4, p. 183-188.

Zasov SV, Frolov NN, Khuzhakulov R. Peculiarities of the stress-strain state of loess subsidence foundations of the NIITZI-agroprom structure of the Ministry of Agriculture of the Russian Federation, No. 68, VS-96, Dep. M., 1996, 6 p.

Zasov S.V., Khuzhakulov R. Water-conducting structures on collapsing soils. materials of the conference KIEI, Karshi, “Nasaf”, 2002, pp. 147-148.

Kaliev M.M., Frolov N.N. Taking into account, when determining the subsidence of irrigation structures, the complex stress-strain state of loess soils of water by local load. In the book: Hydraulic structures. M .: MGMI. 1978, Vol. 58, p. 57-66.

Kirillov A.A., Frolov N.N. Hydraulic structures on irrigation systems in loess subsidence soils. M .: Publishing house. S.-kh. lit-ry. 1963.-272 p.

Kornienko P.I. Subsidence and construction classification of loess soils of some points of the Ukrainian SSR: Avtoref.dis. learned. step. Candidate of Engineering Sciences. Kiev, 1968.22 p.

Larionov A.K., Priklonsky A.V., Ananiev V.P. Loess rocks and their construction properties. M .: Gosgeotekhizdat. 1959, 367 p.

Loess rocks as foundations of buildings and structures / Ananiev V.P., Gilmaya Ya.D., Korobkin V.I. and etc. Growth A / D: Publishing House of Growth State. University, 1976.-214 p.

Mikhaleva A.E. Moisture dynamics of loess subsidence soils. - Abstract of the thesis on the research of scientific degree of Candidate of Engineering Sciences, Moscow, 1972, 23 p.

Mustafaev A.A. Fundamentals of mechanics of subsidence soils (Moscow, Stroyizdat, 1978), 263 p.

Mustafaev A.A., Aliev S.K. Issues of calculating the bearing capacity of loess foundations. - In the book: Issues of mechanics of collapsing soils. Baku, 1967, vol. 4, p. 12-19.

Pilyugin A.I. On lateral pressure during subsidence of loess-like soils.-In kN.: Foundations, foundations and soil mechanics. Moscow, 1961, issue 1, pp. 10-12.

Savvateev S.S., Zubkov E.I., Mariupolskiy A.L. Results of statistical surveys of irrigation systems. - Hydraulic engineering and melioration, 1974, No. 11, p.27-29.

Finaev I.V. On the issue of assessing subsidence and construction of buildings on loess soils. –In the book: Questions of construction on loess grounds. Voronezh, 1961, pp. 43-48.

Florov N.N. Determination of the calculated value of the deformation of loess soils by compression tests. - (Tr / MGMI). M., 1967.-156 p.

Khuzhakulov R., Zasov S.V. Issues of designing hydraulic structures on collapsible soils in the south of Uzbekistan. On Sat. materials of the republican scientific and practical conference. Karshi Engineering and Economic Institute, Karshi, March 11-12, 2016, pp. 266-269.

Tsytovich N.A. Soil mechanics. M.L .: State publishing house of literature on construction and architecture. 1951.- 632 p.

QMQ 2.02.02-98. SOILS OF HYDRAULIC STRUCTURES. T., 1998.