Earthquake Behavior of Concrete Gravity Dams During Ground Motions

ANSYS (2013) Theory user’s manual. Swanson Analysis Systems Inc., Houston, USA. Search in Google Scholar

Arabshahi, H., V. Lotfi (2008) Earthquake response of concrete gravity dams including dam-foundation interface nonlinearities. Eng. Struct. 30(11): 3065-3073. Search in Google Scholar

Azmi, M., P. Paultre (2002) Three-dimensional analysis of concrete dams including contraction joint nonlinearity. Engineering Structures 24: 757-771. Search in Google Scholar

Chopra, A.K., L. Zhang (1991) Earthquake-induced base sliding of concrete gravity dams. J. Struct. Eng. 117(12): 3698-3719. Search in Google Scholar

Chavez, J.W., G.L. Fenves (1995) Earthquake analysis of concrete gravity dams including base sliding. J. Struct. Eng. ASCE 121(5): 865-875. Search in Google Scholar

Danay, A., L.N. Adeghe (1993) Seismic induced slip of concrete gravity dams. J. Struct. Eng 119(1): 108-129. Search in Google Scholar

Drucker, D.C., W. Prager (1952) Soil mechanics and plastic analysis of limit design. Q. Appl. Math. 10(2):157-165. Search in Google Scholar

Hall, J.F., M.J. Dowling, B. El-Aidi (1991) Defensive design of concrete gravity dams. Report no. EERL 91-02. Earthquake Engineering Research Center, University of California, Berkeley, USA. Search in Google Scholar

Leger, P., M. Katsouli (1989) Seismic stability of concrete gravity dams. Earthq. Eng. Struct. Dyn. 18(6): 889-902. Search in Google Scholar

Messaad, M., Bourezane, M., Latrache, M., Berrabah, A. T., & Ouzendja, D. (2021). Three-dimensional seismic analysis of concrete gravity dams considering foundation flexibility. Mechanics and Mechanical Engineering, 25(1), 88-98. Search in Google Scholar

Ouzandja, D., B. Tiliouine (2015). Effects of dam-foundation contact conditions on seismic performance of concrete gravity dams. Arab. J. Sci. Eng. 40(11): 3047-3056. Search in Google Scholar

Ouzandja, D. (2016). Effets des conditions de contact à l’interface barrage-fondation sur la performance sismique des barrages-poids en béton (Doctoral dissertation, Alger, Ecole Nationale Polytechnique). Search in Google Scholar

Ouzandja, D., Tiliouine, B., Belharizi, M. and Kadri, M. (2017), “Three-dimensional nonlinear seismic response of Oued Fodda concrete gravity dam considering contact elements at dam-reservoir interaction interface”, Asian Journal of Civil Engineering (bhrc), 18(6), 977-992. Search in Google Scholar

Ouzandja, D., Messaad, M., Berrabah, A. T., & Belhrizi, M. (2023). Impact of material nonlinearity of dam-foundation rock system on seismic performance of concrete gravity dams. Journal of Theoretical and Applied Mechanics, 49-63. Search in Google Scholar

Viladkar, M.N., A.M.S. Al-Assady (2012) Nonlinear analysis of pine flat dam including base sliding and separation. Proceedings of the 15th World Conference on Earthquake Engineering (15 WCEE), Lisbon, Portugal. Search in Google Scholar

Wang, G., Wang, Y., Lu, W., Yu, M. and Wang, C. (2017), “Deterministic 3D seismic damage analysis of Guandi concrete gravity dam: A case study”, Engineering Structures 148, 263-276; https://doi.org/10.1016/j.engstruct.2017.06.060 Search in Google Scholar

Westergaard, H.M. (1933) Water pressures on dams during earthquake. Trans. ASCE 98: 418-433. Search in Google Scholar