Stress-strain state of composite reinforced concrete slab elements under fire activity

被引:4
|
作者
Rybakov V.A. [1 ]
Ananeva I.A. [1 ]
Rodicheva A.O. [2 ]
Ogidan O.T. [1 ]
机构
[1] Peter the Great St. Petersburg Polytechnic University, St.-Petersburg
[2] LenzhilNIIproekt, Co., Ltd, St.-Petersburg
来源
| 1600年 / St-Petersburg State Polytechnical University卷 / 74期
关键词
Composite reinforced concrete structures; Fire resistance; Floor; Limit of fire resistance; Profiled sheet; Rebar; Reinforced concrete structures; Temperature; Ultimate moment;
D O I
10.18720/MCE.74.13
中图分类号
学科分类号
摘要
One of the most topical issues (in construction) has become providing fire protection facilities for reinforced concrete. The Eurocode-4 and other recommendations have been applied for more than 10 years in European countries. In Russia we have only one method of analysis - STO 36554501-006-2006. This work is devoted to comparise all these algorithms. 3 methods of analysis of composite reinforced concrete slab elements under fire activity are described. 3 analytical models of structures with different calculation perameters are consedered for determination of corresponding dependences and creating the algorithm of calculation. Partial coefficients were identified for analysis of composite reinforced concrete slab elements according European Standarts for application in Russian Federation. © Rybakov V.A.,Ananeva I.A.,Rodicheva A.O.,Ogidan O.T., 2017.
引用
收藏
页码:161 / 174
页数:13
相关论文
共 50 条
  • [1] Stress-strain state of a steel-reinforced concrete slab under long-term
    Zamaliev, F. S.
    Zakirov, M. A.
    MAGAZINE OF CIVIL ENGINEERING, 2018, 83 (07): : 12 - 23
  • [2] Stress-strain state of fiber assembly in glass reinforced concrete elements
    Rabinovich, F.N.
    Lemysh, L.L.
    Steklo i Keramika, 1996, (12): : 24 - 27
  • [3] Study of the stress-strain state of compressed concrete elements with composite reinforcement
    Bondarenko, Yurii
    Spirande, Karina
    Iakymenko, Maryna
    Mol'skyj, Mikhail
    Oreshkin, Dimitry
    6TH INTERNATIONAL SCIENTIFIC CONFERENCE RELIABILITY AND DURABILITY OF RAILWAY TRANSPORT ENGINEERING STRUCTURES AND BUILDINGS (TRANSBUD-2017), 2017, 116
  • [4] Stress-strain state of damaged reinforced concrete bended elements at operational load level
    Kopiika, Nadiia
    Vegera, Pavlo
    Vashkevych, Rostyslav
    Blikharskyy, Zinoviy
    PRODUCTION ENGINEERING ARCHIVES, 2021, 27 (04) : 242 - 247
  • [5] Comparison of the stress-strain state of the reinforced concrete structure under various mathematical models of concrete
    Sidorov, Dmitriy
    Dorozhinskiy, Vladimir
    VI INTERNATIONAL SCIENTIFIC CONFERENCE INTEGRATION, PARTNERSHIP AND INNOVATION IN CONSTRUCTION SCIENCE AND EDUCATION (IPICSE-2018), 2018, 251
  • [6] Stress-Strain State of the Elements of Building Structures in the Case of Fire
    Buryk O.O.
    Drobenko B.D.
    Journal of Mathematical Sciences, 2016, 217 (3) : 330 - 344
  • [7] Stress-strain state of fiber bundles in glass-fiber-reinforced concrete structural elements
    Rabinovich, FN
    Lemysh, LL
    GLASS AND CERAMICS, 1996, 53 (11-12) : 373 - 376
  • [8] NUMERICAL SIMULATION OF THE STRESS-STRAIN STATE OF COMPLEX-REINFORCED ELEMENTS
    Krantovska, Olena
    Petrov, Mykola
    Ksonshkevych, Liubov
    Oreskovic, Matija
    Synii, Sergii
    Ismailova, Nelli
    TEHNICKI GLASNIK-TECHNICAL JOURNAL, 2019, 13 (02): : 110 - 115
  • [9] Modeling and Model Verification of the Stress-Strain State of Reinforced Polymer Concrete
    Yelemessov, Kassym
    Sabirova, Layla B.
    Martyushev, Nikita V.
    Malozyomov, Boris V.
    Bakhmagambetova, Gulnara B.
    Atanova, Olga V.
    MATERIALS, 2023, 16 (09)
  • [10] Stress-Strain State Analyses of the Composite Steel and Concrete Grid Structure
    Gasii, Grygorii
    Hasii, Olena
    INTERNATIONAL JOURNAL OF SUSTAINABLE CONSTRUCTION ENGINEERING AND TECHNOLOGY, 2023, 14 (01): : 296 - 305
12345