Probabilistic Analysis of Structures Under Snow Load

Authors

  • Vitaliy Severyn

  • Andrii Pashchenko

  • Pavel Mytrofanov

How to Cite

Severyn, V., Pashchenko, A., & Mytrofanov, P. (2018). Probabilistic Analysis of Structures Under Snow Load. International Journal of Engineering and Technology, 7(3.2), 339-342. https://doi.org/10.14419/ijet.v7i3.2.14431

Received date: June 20, 2018

Accepted date: June 20, 2018

Published date: June 20, 2018

DOI:

https://doi.org/10.14419/ijet.v7i3.2.14431

Keywords:

numeric probabilistic models, probabilistic analysis, snow load.

Abstract

The authors of the article present a model of snow load on the construction of buildings and structures for the territory of Ukraine. This model can be used for others countries of the world. Numeric probabilistic models of snow load have been worked out for PC. The digital snow load model was developed based on observations of many Ukrainian weather stations. This model is implemented as a software package in the programming language C ++. The results of snow load simulation can be used to assess the reliability of building structures. Finally, the implementation of this algorithm will allow to calculate the reliability of a number of existing designs. The received reliability forecasts will allow to reveal potentially dangerous types of building structures and to justify on their basis a proposal to improve Code calculations.

 

References

  1. [1] Pietro Croce, Paolo Formichi, Filippo Landi †The snow load in Europe and the climate changeâ€, Climate Risk Management (2018), рр: 1-17.

    https://doi.org/10.1016/j.crm.2018.03.001

    [2] Yuriy Vynnykov, Olena Voskobiinyk, Maksym Kharchenko, Valentyn Marchenko, â€Probabilistic analysis of deformed mode of engineering constructions’ soil-cement groundsâ€, MATEC Web Conf. Machine Modelling and Simulations 2017 (MMS 2017), Vol. 157, No. 05012, (2018), pp:1-8.

    https://doi.org/10.1051/matecconf/201711602038

    [3] A. Haldar, S. Mahadevan, Reliability Assessment Using Stochastic Finite Elements Analysis, New York, 220 (2000)

    [4] Nadezhda Chiganova â€Reliability theory application for building structures reliability determinationâ€, MATEC Web Conf. Machine Modelling and Simulations 2017 (MMS 2017), Vol. 157, No. 05012, (2018), pp:1-7.

    https://doi.org/10.1051/matecconf/20168602009

    [5] Derek L. Kozak, Abbie B. Liel “Reliability of steel roof structures under snow loadsâ€, Structural Safety, Volume 54, (2015), рр 46-56

    https://doi.org/10.1016/j.strusafe.2015.02.004

    [6] Ehsan Kianfar, Vahab Toufigh “Reliability analysis of rammed earth structuresâ€, Construction and Building Materials, Volume 127, 30 (2016), p.p. 884-895

    https://doi.org/10.1016/j.conbuildmat.2016.10.052

    [7] Guiliano Augusti, A. Baratta, F. Casciati, Probabilistic Methods in Structural Engineering, CRC Press, (1984), 582 p.

    [8] S. F. Pichugin, Reliability of Steel Structures of Industrial Buildings [in Russian], Authors Abstract of the Doctor Degree Thesis (Tech. Sci.), Kiev (1994), 32 p.

    [9] Pavlov A. B. Methodological fundamentals of the present-day building structures shape forming principles system / A. B. Pavlov, V. M. Fridkin // Architecture and construction. – M. : Academia, 2010. − No 1. − P. 70 − 73.

    [10] Krasnobayev, V.A., Koshman, S.A. & Mavrina, M.A. Cybern Syst Anal (2014) 50: 969. https://doi.org/10.1007/s10559-014-9688-3

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How to Cite

Severyn, V., Pashchenko, A., & Mytrofanov, P. (2018). Probabilistic Analysis of Structures Under Snow Load. International Journal of Engineering and Technology, 7(3.2), 339-342. https://doi.org/10.14419/ijet.v7i3.2.14431

Received date: June 20, 2018

Accepted date: June 20, 2018

Published date: June 20, 2018