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Wyświetlanie 1-2 z 2
Tytuł:
Reliability-Based Assessment of Galloping Instability of Thin-Walled Steel Beams
Autorzy:
Nguyen, Huu Anh Tuan
Powiązania:
https://bibliotekanauki.pl/articles/27314733.pdf
Data publikacji:
2022
Wydawca:
Uniwersytet Zielonogórski. Oficyna Wydawnicza
Tematy:
instability
wind speed
Monte Carlo simulation
reliability index
safety factor
niestabilność
prędkość wiatru
Monte Carlo
wskaźnik niezawodności
współczynnik bezpieczeństwa
Opis:
Galloping instability relating to cross-wind vibrations can be found in flexible and lightly damped structures. In the present paper, the reliability of a thin-walled steel beam in maintaining its galloping stability was examined using a probabilistic approach. The analysis considered random variation in the cross-sectional geometrical properties of the beam, the material elastic modulus, the structural damping and the wind speed. A large number of Monte Carlo simulations were performed with normal and Gumbel distributions applied to the random variables to determine the probability distribution function of the safety margin. The limit state is considered violated when the wind speed exceeds the onset wind velocity of galloping, resulting in the aerodynamic damping being greater than the structural damping. It was shown by a conventional codified safety factor method that the beam was robust enough for galloping stability. By contrast, the probability-based assessment revealed that the beam failed to achieve the target reliability index in case the coefficient of variation of wind speed was greater than 5%. The analysis results suggested that the code-satisfied slenderness of the beam should be reduced by a factor of 1.5-1.7 under the action of wind speed with a coefficient of variation in the range 30-40%.
Źródło:
Civil and Environmental Engineering Reports; 2022, 32, 2; 23--35
2080-5187
2450-8594
Pojawia się w:
Civil and Environmental Engineering Reports
Dostawca treści:
Biblioteka Nauki
Artykuł
Tytuł:
Stability of anchored retaining walls under seismic loading conditions to obtain minimal anchor lengths using the improved failure model
Autorzy:
Benamara, Fatima Zohra
Rouaiguia, Ammar
Bencheikh, Messaouda
Powiązania:
https://bibliotekanauki.pl/articles/396160.pdf
Data publikacji:
2020
Wydawca:
Uniwersytet Zielonogórski. Oficyna Wydawnicza
Tematy:
anchored retaining walls
safety factor
stability
seismic loading
failure model
Plaxis 2D
kotwione ściany oporowe
współczynnik bezpieczeństwa
stabilność
obciążenie sejsmiczne
Opis:
Anchored retaining walls are structures designed to support different loading applied in static and dynamic cases. The purpose of this work is to design and study the stability of an anchored retaining wall loaded with different seismic actions to obtain minimal anchor lengths. Mononobe-Okabe theory has been applied for the evaluation of seismic earth pressures developed behind the anchored wall. Checking the dynamic stability of anchored retaining walls is usually done using the classic Kranz model. To take into consideration the effects of the internal forces developed during failure, we have proposed a new model, based on the Kranz model, which will be used as the Kranz model to find the critical angle failure performed iteratively until the required horizontal anchor length is reached for a minimum safety factor. The results of this study confirm that the effect of the seismic load on the design of an anchored retaining wall, and its stability, has a considerable influence on the estimation of anchor lengths. To validate the modifications made to the new model, a numerical analysis was carried out using the Plaxis 2D software. The interpretation of the obtained results may provide more detailed explanation on the effect of seismic intensities for the design of anchored retaining walls.
Źródło:
Civil and Environmental Engineering Reports; 2020, 30, 3; 214-233
2080-5187
2450-8594
Pojawia się w:
Civil and Environmental Engineering Reports
Dostawca treści:
Biblioteka Nauki
Artykuł
    Wyświetlanie 1-2 z 2

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