The evaluation of friction is an important element in the verification of stability and the determination of the bearing capacity of piles. In the case of cyclic stress, the soil-pile interface has a relaxation which corresponds to a fall in the horizontal stress which represents the normal stress at the lateral surface of the pile. This paper presents an explicit formulation to express the degradation of the normal stress after a large number of shear cycles as a function of cyclic parameters. ; In this study we are interested in the exploitation of the cyclic shear tests carried out by Pra-ai with imposed normal rigidity (CNS) in order to demonstrate the phenomenon of falling of the normal stress. The approach presented in this paper consists in proposing a simple expression for estimating the degradation of normal stress as a function of cyclic shear parameters after a large number of cycles. The validation of this approach is verified by the application of this formulation to a real case where the comparison of the simulations made by this approach with those recorded on site shows the good adaptation of this approach to this type of problems.
tytuł dodatkowy: Prace z Inżynierii Lądowej i Środowiska
Zielona Góra: Oficyna Wydawnicza Uniwersytetu Zielonogórskiego
Civil and Environmental Engineering Reports (CEER), no 31, vol. 3
Biblioteka Uniwersytetu Zielonogórskiego
Mar 27, 2023
Mar 27, 2023
60
https://dlibra.bu.uz.zgora.pl/publication/79754
Edition name | Date |
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Numerical Modeling of the Degradation of the Normal Stress Under Large Number of Shearcycles | Mar 27, 2023 |
Adjabi, Souhila Nouaouria, Mohamed Salah Djebabla, Wafa Kuczyński, Tadeusz - red.
Sedin, Vladimir Bikus, Kateryna Kovba, Vladislav Kuczyński, Tadeusz - red.
Litewka, Przemysław Świtka, Romuald - red.
Pidlutskyi, Vasyl Boyko, Igor Nosenko, Viktor Kuczyński, Tadeusz - red.
Sedin, Vladimir Bikus, Kateryna Kovba, Vladyslav Kononov, Denys Zahilskyi, Vitalii Kuczyński, Tadeusz - red.
Seyedi, Marghaki Behnaz Soltani, Fazlollah Noroozinejad, Farsangi Ehsan Sivandi-Pour, Abbas Kuczyński, Tadeusz - red.
Kostecki, Jakub Greinert, Andrzej Drab, Michał Mik, Łukasz Kuczyński, Tadeusz - red.
Gilewska, Mirosława Otremba, Krzysztof Greinert, Andrzej - red.