References
- Balu, A. S.; Rao, B. N. 2013. Confidence bounds on design variables using high-dimensional model representation-based inverse reliability analysis, Journal of Structural Engineering139(6): 985–996. http://dx.doi.org/10.1061/(ASCE)ST.1943-541X.0000709
- Belenya, E. I.; Streletsky, N. N.; Vedenikov, G. S.; Klepikov, L. V.; Morachevsky, T. N. 1991. Metal structures. Specialized course. Moscow. 687 p.
- Chowdhury, R.; Rao, B. N.; Prasad, A. M. 2009. High-dimensional model representation for structural reliability analysis, Communications in Numerical Methods in Engineering25(4): 301–337. http://dx.doi.org/10.1002/cnm.1118
- DBN B.1.2-2:2006. National structural rules and regulations. The system of reliability and safety provision of constructional projects. Loads and effects. Kyiv, Ukraine, 2006. 61 p.
- DBN B.1.2-14-2009. National structural rules and regulations. The system of reliability and safety provision of constructional projects. General principles of reliability control and constructional safety of buildings, structures and supports. Kyiv, Ukraine, 2009. 37 p.
- DBN B.2.6-163-2010. National structural rules and regulations. The system of reliability and safety provision of constructional projects. steel structures. Kyiv, Ukraine, 2010. 224 p.
- EN 993-1-1 Eurocode 3: Design of steel structures – Part 1-1: General rules and rules for buildings. Brussels: European Committee for Standardization, 2005. 91 p.
- Gorokhov, Y. V.; Mushchanov, V. F.; Kinash, R. I.; Shimanovs-ky, A. V.; Lebedich, I. N. 2008. Structures of fixed-site shells over stadium stands. 2nd ed. Makeyevka. 404 p.
- Guo, T.; Sause, R.; Frangopol, D. M.; Li, A. 2011. Time-dependent reliability of psc box-girder bridge considering creep, shrinkage, and corrosion, Journal of Bridge Engineering16(1): 29–43. http://dx.doi.org/10.1061/(ASCE)BE.1943-5592.0000135
- Kala, Z. 2007. Influence of partial safety factors on design reliability of steel structures – probability and fuzzy probability assessments, Journal of Civil Engineering and Management13(4): 291–296.
- Kala, Z.; Kala, J. 2009. Sensitivity analysis of stability problems of steel structures using shell finite elements and nonlinear computation methods, WSEAS Transactions on Applied and Theoretical Mechanics4(3): 105–114.
- Kihyon, K.; Frangopol, D. M. 2010. Bridge fatigue reliability assessment using probability density functions of equivalent stress range based on field monitoring data, International Journal of Fatigue32(8): 1221–1232. http://dx.doi.org/10.1016/j.ijfatigue.2010.01.002
- Luo, Y.; Kang, Z.; Li, A. 2009. Structural reliability assessments based on probability and convex set mixed model, Computers & Structures87(21–22): 1408–1415. http://dx.doi.org/10.1016/j.compstruc.2009.06.001
- Mushchanov, V. F.; Gibalenko, V. A. 1999. Peculiar properties of real work operation and design of rigid cords of an open overcut, Ukraine Construction5(1): 45–48.
- Mushchanov, V. F.; Pryadko, Y. N. 2012. Total algorithm of safety index of overhanging coating formed by rigid cords of through section, Metal Structures18(3): 159–169.
- Mushchanov, V. F.; Rudneva, I. N. 2012. Stress-deformed state of a suspended system of bending-rigid fibers in terms of the support pliability, Metal Structures18(1): 5–16.
- Pichugin, S. F. 2009. Durability of steel structures of industrial buildings. Poltava, Ukraine. 452 p.
- Qiu, Z.; Yang, D.; Elishakoff, I. 2008. Probabilistic interval reliability of structural systems, International Journal of Solids and Structures45(10): 2850–2860. http://dx.doi.org/10.1016/j.ijsolstr.2008.01.005
- Report on the results of monitoring metal bearing structures of the shell. “Donbas-Arena” Stadium. 2010. Makiyivka, Ukraine. 90 p.
- Shpete, G. 1994. Durability of supporting building structures. Moscow. 288 p.
- Sventikov, A. A. 2009. Reliability analysis of suspension rod coverings with the development of plastic deformation, in Collection of Scientific Articles of Central Research Institute of Kucherenko, Ukraine, 12–21.
- Vedenikov, G. S.; Teloyan, A. L. 1997. Nonlinear method of analysis of bending and hard stay ropes, Building Mechanics and Analysis of Structures6(1): 47–50.
- Xiao, N. C.; Huang, H. Z.; Wang, Z.; Pang, Y.; He, L. 2011. Reliability sensitivity analysis for structural systems in interval probability form, Structural and Multidisciplinary Optimization44(5): 691–705. http://dx.doi.org/10.1007/s00158-011-0652-9
- Wu, Z.-J.; Wang, S.-L.; Ge, X.-R. 2010. Application of Latin hypercube sampling technique to slope reliability analysis, Yantu Lixue/Rock and Soil Mechanics31(4): 1047–1054.
- Yeremeyev, P. G. 2006. Design Peculiarities for Unique Large-Span Buildings and Structures, Modern Industrial and Civil Construction2(1): 5–15.