ВЕРОЯТНОСТНЫЕ МОДЕЛИ ВОЗДЕЙСТВИЙ ДЛЯ УСЛОВИЙ РЕСПУБЛИКИ БЕЛАРУСЬ

Y. MARTYNOV; V. NADOLSKI

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Published: Dec 30, 2014

Issue

No. 16 (2014)

Section

Строительные конструкции

Y. MARTYNOV

Belarusian National Technical University, Minsk

V. NADOLSKI

Belarusian National Technical University, Minsk

Abstract

Studies of reliability based on different probability models can lead to uncomparable results. Therefore, an important task is to develop common approaches to define probabilistic models of basic variables. The modern approach to probabilistic modeling of action with an emphasis on European trends is shown in the article. Probabilistic models snow and wind loads taking into account the territorial conditions of the Republic of Belarus are clarified. A review of probabilistic models adopted in the calibration of partial coefficients for the Eurocodes was performed. The probabilistic model of action are recommended based on the investigations.

How to Cite

MARTYNOV, Y., & NADOLSKI, V. (2014). PROBABILISTIC MODELING OF ACTION FOR CONDITIONS OF THE REPUBLIC OF BELARUS. Vestnik of Polotsk State University. Part F. Constructions. Applied Sciences, (16), 13-19. Retrieved from https://journals.psu.by/constructions/article/view/7957

This work is licensed under a Creative Commons Attribution 4.0 International License.

Author Biography

Y. MARTYNOV, Belarusian National Technical University, Minsk

канд. техн. наук, проф.

References

Еврокод. Основы проектирования конструкций: ТКП EN 1990-2011. – Введ. 15.11.2011. – Минск: Госстандарт Респ. Беларусь, 2012. – 70 с.

JCSS Probabilistic Model Code // Joint Committee of Structural Safety [Electronic resource]. – 2001.

Надежность строительных конструкций. Общие принципы: СТБ ISO 2394-2007. – Введ. 01.07.2008. – Минск: Госстандарт Респ. Беларусь, 2007. – 69 с.

Лычев, А.С. Надежность строительных конструкций: учеб. пособие / А.С. Лычев. – М.: Изд-во Ассоциации строительных вузов, 2008. – 184 с.

Марковский, Д.М. Калибровка значений параметров безопасности железобетонных конструкций с учётом заданных показателей надёжности: автореф. дис. … канд. техн. наук: 05.23.01 / Д.М. Марковский; Брестский гос. техн. ун-т. – Брест, 2009. – 24 с.

Sýkora, M. Reliability-based design of roofs exposed to a snow load / M. Sýkora, M. Holicky // In Li, J. – Zhao, Y.-G. – Chen, J. (eds.), Reliability Engineering – Proceedings of the International Workshop on Reliability Engineering and Risk Management IWRERM 2008, Shanghai, 21–23 August 2008. – Shanghai: Tongji University Press, 2009. – P. 183–188.

Safety of Structures. An independent technical expert review of partial factors for actions and load combinations in EN 1990 «Basis of Structural Design»: BRE Client Report № 210297 [Electronic resource] / Building Research Establishment. – 2003.

Marková, J. Calibration of partial factors for design of concrete structures / J. Marková, M. Holicky // In Faber, M.H. – Köhler, J. – Nishijima, K. (eds.), Proceedings of 11th International Conference on Applications of Statistics and Probability in Civil Engineering ICASP11, 1–4 August, 2011, ETH Zurich, Switzerland. Leiden (The

Netherlands): Taylor & Francis/Balkema, 2011. – P. 986–990.

Holicky, M. Calibration of Reliability Elements for a Column / M. Holicky, J. Markova // Workshop on Reliability Based Code Calibration: Press Release, Zurich, March 21–22, 2002 [Electronic resource] / Swiss Federal Institute of Technology (ETH Zurich). – 2002.

Vrouwenvelder, A.C.W.M. Probabilistic calibration procedure for the derivation of partial safety factors for the Netherlands building codes / A.C.W.M. Vrouwenvelder, A.J.M. Siemes // Delft University of Technology. – 1987. – HERON, 32 (4) – P. 9–29.

Holicki, M. Reliability assessment of alternative Eurocode and South African load combination schemes for structural design / M. Holicki, J. Retief // Journal of the South African Institution of Civil Engineering. – 2005. – Vol. 47, № 1. – P. 15–20.

Retief, J.V. Reliability basis for adopting Eurocodes as South African standards / J.V. Retief, C. Barnardo, M. Dithinde // In Faber M.H., Köhler J., Nishijima K. (eds.), Proceedings of 11th International Conference on Applications of Statistics and Probability in Civil Engineering ICASP11, 1–4 August, 2011, ETH Zurich, Switzerland. Leiden (The Netherlands): Taylor & Francis/Balkema, 2011. – P. 999–1007.

Beck, A.T. A firts attempt towards reliability-based calibration of Brazilian Structural Design codes / A.T. Beck, Jr. Souza // Journal of the Brazilian Society of Mechanical Sciences and Engineering. – 2010. – Vol. XXXII, № 2. – P. 119–127.

SAKO. Joint Committee of NKB and INSTA-B. NKB Report: 1999:01 E, Basis of Design of Structures. Proposals for modification of Partial Safety Factors in Eurocodes.

Пичугин, С.Ф. Надежность стальных конструкций производственных зданий: моногр. / С.Ф. Пичугин. – Полтава: Изд-во «ACMI», 2009. – 452 с.

Авраменко, П.В. Временные нагрузки на перекрытия многоэтажных административных зданий / П.В. Авраменко // Строительная механика и расчет сооружений. – 1980. – № 1. – С. 67–71.

Andam, K.A. Floor live loads for office buildings / K.A. Andam // Building and Environment. – 1986. – Vol. 21, № 3/4 – P. 211–219.

Довейка, В.Ю. Статистические характеристики полезной нагрузки на перекрытия жилых домов / В.Ю. Довейка, Б.И. Снарскис // Вопросы надежности железобетонных конструкций. – Куйбышев, 1973. – С. 107–110.

Choi, E.C.C. Live load in office buildings. Lifetime maximum load and the influence of room use / E.C.C. Choi // Proc. lnstn Civ. Engrs Structs & Bldgs. – 1992. – Vol. 94, № 3, Aug. – P. 307–314.

Corotis, R. Probabilistic Load Duration Model for Live Loads / R. Corotis, W. Tsay // J. Struct. Eng. – 1983. – Vol. 109, № 4. – P. 859–874.

Choi, E.C.C. Extraordinary Live Load in Office Buildings / E.C.C. Choi // J. Struct. Eng. – 1991. – Vol. 117, № 11. – P. 3216–3227.

Нормирование снеговых нагрузок для территории Республики Беларусь / В.В. Тур [и др.] // Строительная наука и техника. – 2008. – № 2. – С. 27–45.

Нагрузки и воздействия на здания и сооружения / В.Н. Гордеев [и др.]; под общ. ред. А.В. Перельмутера. – М.: Изд-во Ассоциации строительных вузов, 2007. – 482 с.

Sýkora, M. Reliability Analysis of a Steel Frame / M. Sýkora; In: Acta Polytechnica. – 2002. – № 4, Vol. 42. – Prague: Vydavatelství ČVUT, Czech Republic. – P. 27–34.

Králik, J. Comparison of Probabilistic Methods to Solve the Reliability of Structures in ANSYS / J. Králik // In Proceedings of conference ANSYS. – P. 63–70 (8 p). TechSoft Engineering & SVS FEM, Pilsner, Czech Republic, September 23–25, 2009.

Черноиван, А.В. Нормирование ветровой нагрузки на здания и сооружения для климатических условий Республики Беларусь: автореф. дис. … канд. техн. наук: 05.23.01 / А.В. Черноиван; Брестский гос. техн. ун-т. – Брест, 2012. – 24 с.

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Y. MARTYNOV, Belarusian National Technical University, Minsk

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