Literature Cited
S. Ya. Éidel'man, Full-Scale Investigations of the Bratsk Dam [in Russian], Énergiya, Leningrad (1975).
P. I. Vasil'ev, “Investigation of thermal stresses in concrete structures. Investigations of the thermics of concrete and reinforced-concrete hydraulic structures,” in: Trans. of the Joint Conf. on Hydraulic Engineering [in Russian], No. 103, Énergiya, Leningrad (1975).
K. I. Dzyuba, “Use of numerical methods for investigating thermal stresses of hydraulic structures,” in: Trans. of the Joint Conf. on Hydraulic Engineering [in Russian], No. 103, Énergiya, Leningrad (1975).
Sh. N. Plyat and T. T. Ovchinnikova, “Methods of calculating thermal stresses in concrete masses of hydraulic structures during their construction,” in: Trans. of the Joint Conf. on Hydraulic Engineering [in Russian], No. 103, Énergiya, Leningrad (1975).
L. E. Prelova and N. I. Fradkina, “Investigation of thermal stresses in concrete dams constructed without pipe cooling,” in: Trans. of the Joint Conf. on Hydraulic Engineering [in Russian], No. 103, Énergiya, Leningrad (1975).
T. N. Rukavishnikova and L. P. Trapeznikov, “Method of calculating thermal stresses in multilayered concrete masses on a rock foundation,” in: Trans. of the Joint Conf. on Hydraulic Engineering [in Russian], No. 103, Énergiya, Leningrad (1975).
N. Kh. Arutyunyan, “Creep of aging materials. Creep of concrete,” in: Mechanics in USSR during 50 Years (1917–1967), Vol. 3, Mechanics of a Deformable Solid [in Russian], Nauka, Moscow (1972).
S. Ya. Éidel'man, “Determination of the characteristics of elasticity and creep of concrete in structures,” Gidrotekh. Stroit., No. 5 (1952).
P. I. Vasil'ev and Yu. I. Kononov, “Effect of hardening temperature on increase in the modulus of instantaneous deformations of concrete,” Izv. VNIIG,75 (1964).
L. P. Trapeznikov, “Investigation of thermal cracking in massive concrete hydraulic structures. Investigations of the thermics of concrete and reinforced-concrete hydraulic structures,” in: Trans. of the Joint Conf. on Hydraulic Engineering [in Russian], No. 103, Énergiya, Leningrad (1975).
N. S. Rozanova and I. A. Mikhailova, “Investigation of thermal stresses of construction blocks,” Izv. VNIIG,84, (1967).
S. B. Ukhov, Rock Foundations of Hydraulic Structures (Mechanical Properties and Calculations) [in Russian], Énergiya, Moscow (1975).
S. V. Aleksandrovskii, Calculation of Concrete and Reinforced-Concrete Structures for the Effect of Temperature and Moisture (with Consideration of Creep) [in Russian], Stroiizdat, Moscow (1966).
S. Snyatkowsky, “Measurements of strains and stresses inside cementing materials,” Proc. of the Conf. of Experimental Methods of Investigating Stresses and Strains in Structures, Praha, Oct. 1965, Part 1.
M. Rocha, “In situ strain and stress measurements,” in: Stress Analysis: Recent Developments in Numerical and Experimental Methods, Wiley, London-New York-Sydney (1965).
N. I. Chalyi, “Preliminary results of investigating the effect of the base and stiffness of embedded strain gauges on the accuracy of measuring deformations of concrete,” in: Trans. of the Joint Conf. on Hydraulic Engineering [in Russian], No. 49, Énergiya, Leningrad (1969).
S. Ya. Éidel'man and L. P. Trapeznikov, “Cracking in blocks of the Bratsk dam” Izv. VNIIG,79 (1965).
T. N. Rukavishnikova and L. P. Trapeznikov, “A variant of the method of finite strips based on the use of orthogonal algebraic polynomials and its application to the problem of thermoelasticity,” in: Finite Element Method and Structural Mechanics [in Russian], Izd. LPI (1974).
T. N. Rukavishnikova and L. P. Trapeznikov, “Application of the Castigliano variational principle to determine thermal stresses in multilayered concrete masses on a rock foundation,” Izv. VNIIG,106 (1974).
Additional information
Translated from Gidrotekhnicheskoe Stroitel'stvo, No. 10, pp. 16–19, October, 1977.
Rights and permissions
About this article
Cite this article
Éidel'man, S.Y., Trapeznikov, L.P. & Rukavishnikova, T.N. Comparison of the results of full-scale investigations and calculation of thermal stresses occurring in a concrete mass during its build-up block by block. Hydrotechnical Construction 11, 994–999 (1977). https://doi.org/10.1007/BF02378709
Issue Date:
DOI: https://doi.org/10.1007/BF02378709