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Remarkable place of reinforced concrete structures in construction field has been noted in wide number of recent researches. Subsequently, their degradation due to aggressive environment has become the topical problem nowadays. Therefore, the formulation of reliable technique for corroded element strength decrement is of great importance, and could be achieved only with the use of complex experimental and theoretical analysis. In this article an attempt is made to propose the mathematical approach to corrosive process modelling, taking into consideration the specifics of its development. According to thorough literature review on existing studies, main specifics of the process were indicated for further suppositions and assumptions formulation. Accordingly, the complex theoretical investigation with corresponding mathematical computations was conducted and results of analytical modelling were discussed. As the initial data for analytical modelling results of previously conducted experiments were used. Analysis of the obtained results shows rather high correspondence with the real conditions of structural element exploitation, taking into consideration material anisotropy and complexity of the corroded zone spread along the rebar cross-section. Proposed methodology for limit force decrease evaluation in general demonstrates reliable results and could be used for further evaluation of corrosion impacts on reinforced concrete elements bearing capacity.
Czasopismo
Rocznik
Tom
Strony
67--72
Opis fizyczny
Bibliogr. 12 poz., rys., tab.
Twórcy
autor
- Lviv Polytechnic National University, S. Bandera 12, Lviv, 79013, Ukraine
autor
- Lviv Polytechnic National University, S. Bandera 12, Lviv, 79013, Ukraine
autor
- Czestochowa University of Technology, Faculty of Civil Engineering, Akademicka 3, Czestochowa, 42-200, Poland
Bibliografia
- 1.Blikharskyy, Y.Z., 2019. Mechanical Properties of Thermally Hardened A500s Reinforcement, Mater Sci, 55, 175-180, 2019. DOI: 10.1007/s11003-019-00285-0
- 2.Bobalo, T., Blikharskyy, Y., Kopiika, N., Volynets, M., 2019. Serviceability of RC Beams Reinforced with High Strength Rebar’s and Steel Plate, Lecture Notes in Civil Engineering, 47, 25-33, DOI: 10.1007/978-3-030-27011-7_4
- 3.Chernin, L., Val, D., 2012. Efficiency of Modelling CorrosionInduced Cover Cracking in RC Structures, Conference: 8th International Conference: Concrete in the Low Carbon Era, CTU Congress At: Dundee, UK, 1-11.
- 4.Christodoulou, C., Goodier, C.I., 2014. Corrosion management of reinforced concrete structures, Loughborough University’s Institutional Repository- Concrete (London), UK, 37-39.
- 5.Goyal, A., Pouya, H.S., Ganjiam, E., Claisse, P., 2018. A review of corrosion and protection of steel in concrete, Arabian Journal for Science and Engineering, 43, 5035–5055, DOI: 10.1007/s13369-018-3303-2.
- 6.Li, Q.; Ye, X., 2018. Surface deterioration analysis for probabilistic durability design of RC structures in marine environment, Structural Safety, 75, 13-23, DOI: 10.1016/j.strusafe.2018.05.007.
- 7.Luo, D., Li, Y., Li, J., Lim, K. S., Nazal, N. A.M., Ahmad, H., 2019. A recent progress of steel bar corrosion diagnostic techniques in RC structures, Sensors, 19(1), 34, DOI: 10.3390/s19010034.
- 8.Matesová, D., Teplý, B., Podroužek, J., Chromá, M., 2007. Probabilistic modeling of steel corrosion in RC structures, Proc. of 3rd Central European Congress on Concrete Engineering, CCC, Brno University of Technology, Brno, Czech Republic, 337-342.
- 9.Sadeghi, K., Musa, M.K.; Nassrullah, H.M., 2019. Corrosion problems in RC structures: an overview of causes, mechanism, effects, controls and evaluation, Academic Research International, 10(2), 15-28.
- 10.Silva, M.V.F., Pereira, M.C., Codaro, E.N., 2015. Carbon steel corrosion:an everyday approach for chemistry teaching, Quim. Nova, 38(2), 293-296, DOI: 10.5935/0100- 4042.20140313.
- 11.Tantele, E.A., Votsis, R.A., Kyriakides, N., Georgiou, P.G., Ioannou, F.G., 2017. Investigation on the thermographic detection of corrosion in RC structures, Fifth International Conference on Remote Sensing and Geoinformation of the Environment (RSCy2017), International Society for Optics and Photonics, 10444, 104441, DOI: 10.1117/12.2281183.
- 12.Yogalakshmi, N.J., Rao, K.B., Anoop, M.B., 2020. Durability-Based Service Life Design of RC Structures–ChlorideInduced Corrosion, Reliability, Safety and Hazard Assessment for Risk-Based Technologies, Springer, Singapore, 579-590, DOI: 10.1007/978-981-13-9008-1_48.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-856d0767-2fbb-4331-a22c-c6efd920efcd