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Structural Drift Corresponding to the Critical Excitations | ||
| Journal of Structural Engineering and Geo-Techniques | ||
| مقاله 4، دوره 10، شماره 2، اسفند 2020، صفحه 27-34 اصل مقاله (592.8 K) | ||
| نویسندگان | ||
| Mohammad Hosein Soltani1؛ Seyed Hooman Ghasemi* 2 | ||
| 1Department of Civil Engineering, Qazvin Branch, Islamic Azad University, Qazvin, Iran | ||
| 2Department of Civil Engineering, Auburn University, USA | ||
| چکیده | ||
| While the existing structures, even recently constructed ones are subjected to the critical earthquakes, the catastrophic devastations are expected to occur. Therefore, at least for several important structures such as power plants, infrastructure, and buildings, there is a need to consider the critical excitation analysis. One of the important criteria in the seismic design of the structures using the criteria in critical excitation is to control the maximum amount of structural displacement. However, the required characteristics of the analysis and design of the structures are generally random variables and have many uncertainties. Therefore, the probability-based analysis should be accomplished to determine the most probable structural responses. The main objective of this research is to investigate the reliability level of buildings subjected to the critical excitations for concerning the steel structures. In due course, the wide range of the SDOF structures is investigated subjected to real ground motions of the critical excitations. Eventually, the reliability index for structures is given in terms were divulged. | ||
| کلیدواژهها | ||
| Reliability Index؛ Critical Excitation؛ Random Variables and Uncertainty؛ Power Spectral Density؛ Serviceability Displacement | ||
| مراجع | ||
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[1] Andrzej, S Nowak, K.R Collins, “Reliability of structures”, Mc-Grow Hill, (2000). [2] Cornell, A. C.; “A probability-based structural code”, ACI Journal, Vol. 66, pp. 975-985, (1969). [3] Hasofer, A. M. and Lind, N.C.; “Exact and invariant first-order reliability format”, Journal of the Engineering Mechanics Division, ASCE, Vol. 100, pp. 111-121, (1974). [4] Rackwitz, R., Fiessler, B.; “Structural reliability under combined load sequences”, Computers and Structures, Vol. 9, pp. 489-494, (1978). [5] M.DiSciuva, D Lomario, “A Comparison Monte Carlo and FORMs in calculating the reliability of a composite structure”, Composite Structures, Vol. 59(1), pp. 155-162, (2003). [6] Jahani, E, Shayanfar, M.A, and Barkhordari, M.A, “A new adaptive importance sampling Monte Carlo method for structural reliability,” KSCE Journal of Civil Engineering, Vol. 17, pp. 210-215, (2013). [7] Iranian seismic code of practice, Standard No.2800, (1384). [8] Uniform Building code, (1994). [9] Galvi G.M, Kingsley G.R, “Displacement-based design of Multi-degree of freedom bridge structures”, Earthquake Engineering and Structural Dynamics, Vol. 24, pp. 1247-1266, (1995). [10] Priestley M.J.N, “Displacement-based approaches to rational limit states design of new structures”, Keynote Address in the 11th European Conference on Earthquake Engineering, Paris, France, (1998). [11] Sullivan T, Galvi G.M, Priestley M.J.N, Kowalsky M, “The limitation and performances of different displacement-based design methods”, Journal of Earthquake Engineering, Vol. 7, No. Special Issue 1, pp. 201-241, (2003). [12] Takewaki I, “Nonstationary random critical excitation for acceleration response”, Journal of Engineering Mechanics, Vol. 127, pp. 544-556, (2001a).[13] Drenick R.F, “Model-free design of a seismic structures”, Journal of the Engineering Mechanics Division, Vol. 96, Issue 4, pp. 483-493, (1970). [14] Takewaki I, (2001b), “A new method for nonstationary random critical excitation”, Journal of Earthquake Engineering and Structural Dynamics, Vol. 30, pp. 519-535, (2001a). [15] Takewaki I, (2001c), “Nonstationary random critical excitation for non proportionally damped structural systems”, Comput. Methods Appl. Mech. Engrg, Vol. 190, Issue 31, pp. 3927-3943. [16] Ghasemi, S.H., and Ashtari, P., (2014),” Combinatorial Continuous Non-Stationary Critical Excitation in M.D.O.F Structures Using Modified Envelope Functions”, Journal of Earthquakes and Structures, Vol. 7, No. 6, pp.859-908. [17] Ashtari, P. and Ghasemi, S.H., (2013),” Seismic Design of Structures Using Modified Nonstationary Critical Excitation”, Journal of Earthquakes and Structures, Vol. 4, No. 4, pp.383- 396. [18] Ghasemi, S.H. and Nowak, A.S., (2018), “Reliability Analysis of Circular Tunnels with Consideration of the Strength Limit State”. Geomechanics Engineering, Vo. 15, No 3, pp. 879-888. [19] Ghasemi, S.H., and Nowak, A.S., (2017a), “Target Reliability for Bridges with Consideration of Ultimate Limit State”, Engineering Structures, Vol. 152, pp. 226-237. [20] Ghasemi, S.H. and Nowak, A.S., (2017b), “Reliability Index for Non-Normal Distributions of Limit State Functions”. Structural Engineering and Mechanics, Vol. 62, No. 3, pp. 365-372. [21] Ghasemi, S.H. Nowak, A.S., and Ashtari, P., (2013), “Estimation of the Resonance-Response Factor Regarding the Critical Excitation Methods”, 11th International Conference on Structural Safety & Reliability, ICOSSAR 2013, New York, USA. [22] Soltani, M.H., Ghasemi, S.H., Soltani, A., Lee, J.Y., Nowak, A.S., Jalilkhani, M., (2020),” State-of-the-art reliability analysis of structural drift control corresponding to the critical excitations”, Journal of Earthquake Engineering, in press. [23] Dorri, F., Ghasemi, S.H., and Nowak, A.S., (2019), ”Developing a Lateral Load Pattern for Pushover Analysis of EBF System”, Reliability Engineering and Resilience Journal, Vol. 1, No. 1, pp 42-54.<br style=" font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-align: -webkit-auto; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px; -webkit-text-size-adjust: auto; -web | ||
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