Approximate method for determining the short-term and long-term hardness of reinforced concrete elements that bend
Article Sidebar
Published:
Dec 24, 2023
Keywords:
beam, stiffness, flexural, reinforced, short-term hardness, long-term hardness.
Main Article Content
Abstract
The article considers the definition of short-term and long-term stiffness of reinforced concrete elements that bend. For the calculations, elements that are strengthened by the build-up are taken. The reliability of the recommendations of I.I. Ulitskyi is substantiated by a numerical experiment. According to the approximate definition of short-term and long-term stiffness of reinforced concrete elements that bend. Calculation formulas are recommended for determining the stiffness of bending elements strengthened by building up. It has also been proven that the formulas for determining the stiffness of elements reinforced by top and bottom reinforcement are suitable for use in calculations.
Article Details
How to Cite
Yaremenko, N., Oleynikov, V., Bila, I., & Orlov, M. (2023). Approximate method for determining the short-term and long-term hardness of reinforced concrete elements that bend. Herald of the Odessa National Maritime University, (71), 59-66. https://doi.org/10.47049/2226-1893-2023-4-59-66
Section
Hydrotechnical construction
References
1. Murashev V.I. Crack resistance, stiffness and strength of reinforced concrete. - M.: Mashstroyizdat, 1950. ‒ 268 p.
2. Prokopovich I.E., Zedgenidze V.A. Applied theory of creep. ‒ M.: Stroyizdat, 1980. ‒ 240 p.
3. Yatsenko E.A., Kornylova S.V., Bovin A.A. The theory of creep of reinforced concrete structures. ‒ Dnipropetrovsk: Guadeamus, 2000. ‒ 600 p.
4. Ulytskyi I.I., Metelyuk N.S., Remynets H.M. Stiffness of bending reinforced concrete elements. ‒ K.: Gosstroyizdat of the Ukrainian SSR, 1963. ‒ 85 p.
5. Ulytsky I.I., Rusinov I.A. Experimental study of concrete deformability and stiffness of bending elements under long-term loading. On Sat. Building constructions, Vol. XIII, ASyA of the Ukrainian SSR. ‒ K.: Gosstroyizdat of the Ukrainian SSR, 1959.
6. Klovanych S.F. Mechanics of reinforced concrete in structural calculations. Building structures. Vol. 52, Kyiv, NDIBK, 2000. ‒ Р. 107-115.
7. Onufriev N.M. Reinforcement of industrial reinforced concrete structures built and constructed. ‒ M.-L.: Stroyizdat, 1965. ‒ 342 p.
8. Litvinov I.M. Strengthening and restoration of reinforced concrete structures. – M.-L.: Stroyizdat, 1942. ‒ 95 p.
2. Prokopovich I.E., Zedgenidze V.A. Applied theory of creep. ‒ M.: Stroyizdat, 1980. ‒ 240 p.
3. Yatsenko E.A., Kornylova S.V., Bovin A.A. The theory of creep of reinforced concrete structures. ‒ Dnipropetrovsk: Guadeamus, 2000. ‒ 600 p.
4. Ulytskyi I.I., Metelyuk N.S., Remynets H.M. Stiffness of bending reinforced concrete elements. ‒ K.: Gosstroyizdat of the Ukrainian SSR, 1963. ‒ 85 p.
5. Ulytsky I.I., Rusinov I.A. Experimental study of concrete deformability and stiffness of bending elements under long-term loading. On Sat. Building constructions, Vol. XIII, ASyA of the Ukrainian SSR. ‒ K.: Gosstroyizdat of the Ukrainian SSR, 1959.
6. Klovanych S.F. Mechanics of reinforced concrete in structural calculations. Building structures. Vol. 52, Kyiv, NDIBK, 2000. ‒ Р. 107-115.
7. Onufriev N.M. Reinforcement of industrial reinforced concrete structures built and constructed. ‒ M.-L.: Stroyizdat, 1965. ‒ 342 p.
8. Litvinov I.M. Strengthening and restoration of reinforced concrete structures. – M.-L.: Stroyizdat, 1942. ‒ 95 p.