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Relations for the creep characteristics of 28-day steel-fiber-concrete with a constant moisture content and temperature

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Literature cited

  1. B. A. Krylov, “Fiber-concrete and its properties. Survey,” TsNIIS, Series “Construction Materials, Products, and Structures,” No. 4, Moscow (1979).

  2. B. A. Krylov, “Fiber-concrete and fiber-cement abroad. Survey,” TsNIIS, Series “Construction Materials, Products, and Structures,” No. 5, Moscow (1979).

  3. D. Ts. Yankelovich, Dispersion-Reinforced Concrete. Survey [in Russian] LatNIINTI, Riga (1978).

  4. A. V. Sakvarelidze, “Mechanism of fracture of fiber-concrete,” Soobshch. Akad. Nauk Gruz. SSR,104, No. 2, 417–420 (1981).

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  5. A. V. Sakvarelidze, “Strengthening of concrete with steel fibers,” in: Studies of the Mechanics of Materials [in Russian], Tbilisi (1982), pp. 58–64.

  6. N. A. Gudushauri, “Effect of reinforcing fibers on long-term strains of concrete in torsion,” in: Quality and Reliability of Structural Materials and Structures in Seismic Construction [in Russian], Batumi (1984), pp. 57–58.

  7. A. V. Sakvarelidze and A. P. Tsintsadze, “Stand for testing concrete in torsion,” in: Concrete and Ferroconcrete [in Russian], Tbilisi (1972), pp. 59–66.

  8. Concretes. Methods of Determining Shrinkage and Creep Strains. GOST 25544-81. Moscow (1981), pp. 21–32.

  9. I. I. Ulitskii, Theory and Design of Ferroconcrete Rod Structures with Allowance for Long-Term Processes [in Russian], Kiev (1967).

  10. S. V. Aleksandrovskii, Design of Concrete and Ferroconcrete Structures for Changes in Temperature and Moisture Content with Allowance for Creep, 2nd edition [in Russian], Moscow (1973).

  11. A. A. Il'yushin and B. E. Pobedrya, Principles of the Mathematical Theory of Thermoviscoelasticity [in Russian], Moscow (1970).

  12. V. V. Moskvitin, Resistance of Viscoelastic Materials in Regard to Solid-Fuel Rocket-Motor Charges [in Russian], Moscow (1972).

  13. N. Kh. Arutyunyan and V. B. Kolmonovskii, Theory of Creep of Nonuniform Solids [in Russian], Moscow (1983).

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Authors and Affiliations

  1. K. S. Zavriev Institute of Structural Mechanics and Seismic Stability, Academy of Sciences of the Gruzinsk SSR, Tbilisi

    A. V. Sakvarelidze

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  1. A. V. Sakvarelidze
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Translated from Mekhanika KompozitnykhMaterialov, No. 3, pp. 440–445, May–June, 1986.

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Sakvarelidze, A.V. Relations for the creep characteristics of 28-day steel-fiber-concrete with a constant moisture content and temperature. Mech Compos Mater 22, 313–317 (1986). https://doi.org/10.1007/BF00608356

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  • DOI: https://doi.org/10.1007/BF00608356

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