Experience of implementation of Eurocodes in the design of steel structures in the Republic of Belarus
- Authors: Shuryn .B.1, Nadolski V.V.1,2
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Affiliations:
- Brest State Technical University (BrSTU)
- Belarusian National Technical University (BNTU)
- Issue: Vol 19, No 5 (2024)
- Pages: 740-751
- Section: Construction system design and layout planning. Construction mechanics. Bases and foundations, underground structures
- URL: https://journals.rcsi.science/1997-0935/article/view/259909
- ID: 259909
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Abstract
Introduction. The Republic of Belarus is one of the first countries on the territory of the CIS, which introduced European design standards (Eurocodes) on its territory, while preserving the effect of building standards developed on the basis of Soviet SNIP. The republic accumulated considerable experience in the practical application and comparative analysis of these two systems of standards. The relevance of this study is contained in the discovery of the most distinctive features of normative documents, on the basis of which it is possible to determine further directions of scientific research and improvement of domestic norms.Materials and methods. Analysis and generalization of experience.Results. The paper presents the results of generalization of the experience of practical application and comparative analysis of Eurocode and CP in relation to the design of steel structures. The analysis of partial factors, classification of cross sections, welded and bolted joints is given.Conclusions. Methodological approaches to checking limit states and ensuring the reliability of steel structures in CP and Eurocodes are very similar, but there are differences in the values and sets of partial factors. When designing steel structures according to Eurocode, the methods of classification of cross-sections of rolled profiles produced according to GOST or TS need to be adjusted. Eurocode 3 provides more possibilities in the design of welded and bolted joints.
About the authors
A. B. Shuryn
Brest State Technical University (BrSTU)
Email: Shuryn@mail.ru
ORCID iD: 0000-0003-1396-3503
V. V. Nadolski
Brest State Technical University (BrSTU); Belarusian National Technical University (BNTU)
Email: Nadolskivv@mail.by
ORCID iD: 0000-0002-4211-7843
References
- Стрелецкий Н.С. Основы статистического учета коэффициента запаса прочности сооружений. М. : Стройиздат, 1947. 95 с.
- Балдин В.А., Гольденблат И.И., Коченов В.И., Пильдиш М.Я., Таль К.Э. Расчет строительных конструкций по предельным состояниям. М. : Стройиздат, 1951. 272 с.
- Novák L., Cervenka J., Cervenka V., Novák D., Sýkora M. Comparison of advanced semi-probabilistic methods for design and assessment of concrete structures // Structural Concrete. 2022. Vol. 24. Issue 1. Pp. 771–787. doi: 10.1002/suco.202200179
- Балдин В.А., Урицкий М.Р. Обеспеченность нормативных и расчетных сопротивлений малоуглеродистой стали для строительных металлоконструкций // Промышленное строительство. 1978. № 6. С. 19–21. EDN ZIFGUP.
- Бельский Г.Е. О предельных состояниях элементов металлических конструкций при сжатии (растяжении) с изгибом // Строительная механика и расчет сооружений. 1973. № 2. С. 51–57.
- Allaix D.L., Carbone V.I., Mancini G. Global safety format for non-linear analysis of reinforced concrete structures // Structural Concrete. 2013. Vol. 14. Issue 1. Pp. 29–42. doi: 10.1002/suco.201200017
- Sykora M., Holicky M. Safety format for non-linear analysis in the model code — verification of reliability level // Proceeding of fib Symposium on Concrete Engineering for excellence and efficiency. 2011. Pp. 943–946.
- Надольский В.В., Голицки М., Сикора М., Тур В.В. Сопоставление уровней надежности, обеспечиваемых нормами Российской Федерации и Евросоюза // Вестник МГСУ. 2013. № 6. С. 7–20. doi: 10.22227/1997-0935.2013.6.7-20. EDN QGRYLZ.
- Тур В.В., Надольский В.В. Калибровка значений частных коэффициентов для проверок предельных состояний несущей способности стальных конструкций для условий Республики Беларусь. Часть 1 // Строительство и реконструкция. 2016. № 4 (66). С. 73–84. EDN WJIFTB.
- Marková J., Holický M., Jung K., Sýkora M. Reliability of existing reinforced concrete slabs exposed to punching shear // Acta Polytechnica CTU Proceedings. 2022. Vol. 36. Pp. 119–126. doi: 10.14311/APP.2022.36.0119
- Prokop J., Odrobiňák J., Farbák M., Novotný V. Load-carrying capacity of bailey bridge in civil applications // Applied Sciences. 2022. Vol. 12. Issue 8. P. 3788. doi: 10.3390/app12083788
- Holicky M. Safety design of lightweight roofs exposed to snow load // The Art of Resisting Extreme Natural Forces. 2007. Vol. 58. DOI. 10.2495/en070061
- Sýkora M., Holický M. Reliability-based design of roofs exposed to a snow load. Shanghai : Tongji University Press, 2009. Pp. 183–188.
- Hyman P., Sriramula S., Osofero A.I. Calibration of safety factors for prestressed stayed steel columns // Architecture, Structures and Construction. 2022. Vol. 2. Issue 3. Pp. 365–380. doi: 10.1007/s44150-022-00066-5
- Koteš P., Prokop J., Strieška M., Vičan J. Calibration of partial safety factors according to Eurocodes // MATEC Web of Conferences. 2017. Vol. 117. P. 00088. doi: 10.1051/matecconf/201711700088
- Konečný P., Horňáková M., Lehner P., Rovnanikova P., Sykora M. Model uncertainty in diffusion coefficient for chloride ingress into concrete // Procedia Structural Integrity. 2021. Vol. 31. Pp. 147–153. 10.1016/j.prostr.2021.03.023
- Holický M., Retief J.V., Sýkora M. Assessment of model uncertainties for structural resistance // Probabilistic Engineering Mechanics. 2016. Vol. 45. Pp. 188–197. doi: 10.1016/j.probengmech.2015.09.008
- Shankar S., Kumar R., Khatri A.P., Gupta L.M. Comparison of section classification procedure of different codes // ASPS Conference Proceedings. 2022. Vol. 1. Issue 1. Pp. 443–447. doi: 10.38208/acp.v1.533
- Graciano-Gallego C.A., Loaiza N., Casanova E. A comparative analysis of resistance models for austenitic stainless steel girders subjected to concentrated loads // Revista UIS Ingenierías. 2021. Vol. 21. Issue 1. doi: 10.18273/revuin.v21n1-2022008
- Шурин А.Б., Туснин А.Р., Зинкевич И.В., Мухин А.В. Проектирование стальных конструкций в соответствии с требованиями EUROCODES. М. : Изд-во АСВ, 2021. 224 с.
- Bezas M.Z., Demonceau J.F., Vayas I., Jaspart J.P. Classification and cross-section resistance of equal-leg rolled angle profiles // Journal of Constructional Steel Research. 2021. Vol. 185. P. 106842. doi: 10.1016/j.jcsr.2021.106842
- Bezas M.Z., Demonceau J.F., Vayas I., Jaspart J.P. Compression tests on large angle columns in high-strength steel // Steel Construction. 2022. Vol. 15. Issue 1. Pp. 43–47. doi: 10.1002/stco.202100051
- Шурин А.Б., Зинкевич И.В., Мухин А.В. Сравнительный анализ расчета и проектирования элементов стальных конструкций по ТКП EN 1993-1 и СНиП II-23 // Вестник БрГТУ. 2020. № 1. С. 23–27. doi: 10.36773/1818-1212-2020-119-1-23-27
- Шурин А.Б., Мухин А.В. Опыт конструирования ферм из гнутосварных профилей в соответствии с требованиями EN 1993-1 // Сучасні будівельні конструкції з металу та деревини : збірник наукових праць. 2020. С. 141–149.
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