H. Abramson and D. Kana, Some experimental studies of the dynamic stability of thin shells containing liquid, 1970.

H. Abramson, D. Kana, and U. Lindholm, An experimental study of liquid instability in a vibrating elastic tank, Journal of Spacecraft and Rockets, vol.3, pp.1183-1188, 1966.

Q. Akkaoui, E. Capiez-lernout, C. Soize, and R. Ohayon, Solving generalized eigenvalue problems for large scale fluid-structure computational models with mid-power computers, Computers & Structures, vol.205, pp.45-54, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01796689

F. Alijani and M. Amabili, Non-linear vibrations of shells: A literature review from 2003 to 2013, International Journal of Non-Linear Mechanics, vol.58, pp.233-257, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01299631

M. Amabili, Nonlinear vibrations and stability of shells and plates, 2008.

M. Amabili and M. P. Pa?doussis, Review of studies on geometrically nonlinear vibrations and dynamics of circular cylindrical shells and panels, with and without fluid-structure interaction, Applied Mechanics Reviews, vol.56, pp.349-381, 2003.

M. Amabili, A. Sarkar, and M. Pa?doussis, Reduced-order models for nonlinear vibrations of cylindrical shells via the proper orthogonal decomposition method, Journal of Fluids and Structures, vol.18, pp.227-250, 2003.

M. Amabili and C. Touzé, Reduced-order models for nonlinear vibrations of fluid-filled circular cylindrical shells: comparison of pod and 410 asymptotic nonlinear normal modes methods, Journal of fluids and structures, vol.23, pp.885-903, 2007.

F. Ballarin and G. Rozza, POD-Galerkin monolithic reduced order models for parametrized fluid-structure interaction problems, International Journal for Numerical Methods in Fluids, vol.82, pp.1010-1034, 2016.

T. Belytschko, W. K. Liu, B. Moran, and K. Elkhodary, Nonlinear finite elements for continua and structures, 2013.

A. Bermúdez, R. Rodríguez, and D. Santamarina, Finite element computation of sloshing modes in containers with elastic baffle plates, 415 International journal for numerical methods in engineering, vol.56, pp.447-467, 2003.

K. A. Brakke, The surface evolver, Experimental mathematics, vol.1, pp.141-165, 1992.

E. Capiez-lernout, C. Soize, and M. Mignolet, Computational stochastic statics of an uncertain curved structure with geometrical nonlinearity in three-dimensional elasticity, Computational Mechanics, vol.49, pp.87-97, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00684289

S. Carra, M. Amabili, and R. Garziera, Experimental study of large amplitude vibrations of a thin plate in contact with sloshing liquids, Journal 420 of Fluids and Structures, vol.42, pp.88-111, 2013.

J. C. Chen and C. D. Babcock, Nonlinear vibration of cylindrical shells, AiAA Journal, vol.13, pp.868-876, 1975.

M. Chiba, Nonlinear hydroelastic vibration of a cylindrical tank with an elastic bottom, containing liquid. part i: Experiment, Journal of fluids and structures, vol.6, pp.181-206, 1992.

W. Chu and D. Kana, A theory for nonlinear transverse vibrations of a partially filled elastic tank, AIAA Journal, vol.5, pp.1828-1835, 1967.

M. A. Crisfield, J. J. Remmers, and C. V. Verhoosel, Nonlinear finite element analysis of solids and structures, 2000.

E. Dowell, Comments on the nonlinear vibrations of cylindrical shells, Journal of Fluids and Structures, vol.12, pp.1087-1089, 1998.

O. M. Faltinsen and A. N. Timokha, , vol.577, 2009.

C. Farhat, E. K. Chiu, D. Amsallem, J. S. Schotté, and R. Ohayon, Modeling of fuel sloshing and its physical effects on flutter, AIAA journal, vol.51, pp.2252-2265, 2013.

R. Finn, On the equations of capillarity, Journal of Mathematical Fluid Mechanics, vol.3, pp.139-151, 2001.

R. Finn, The contact angle in capillarity, Physics of Fluids, vol.18, p.47102, 2006.

R. Finn and G. K. Luli, On the capillary problem for compressible fluids, Journal of Mathematical Fluid Mechanics, vol.9, pp.87-103, 2007.

S. A. Hambric, S. H. Sung, D. J. Nefske, and R. A. Ibrahim, Engineering Vibroacoustic Analysis: Methods and Applications, Liquid Sloshing Dynamics: Theory and Applications, 2005.

P. Koval'chuk and V. Lakiza, Experimental study of induced oscillations with large deflections of fiberglass shells of revolution, International Applied Mechanics, vol.31, pp.923-927, 1995.

A. W. Leissa, Scientific and Technical Information Office, National Aeronautics and Space Administration 440 Washington, vol.288, 1973.

U. S. Lindholm, D. D. Kana, and H. N. Abramson, Breathing vibrations of a circular cylindrical shell with an internal liquid, J. Aerospace Sci, vol.29, pp.1052-1059, 1962.

M. P. Mignolet and C. Soize, Stochastic reduced order models for uncertain geometrically nonlinear dynamical systems, Computer Methods in Applied Mechanics and Engineering, vol.197, pp.3951-3963, 2008.
URL : https://hal.archives-ouvertes.fr/hal-00686140

N. N. Moiseyev, V. Rumyantsev, H. J. Morand, and R. Ohayon, Dynamic stability of bodies containing fluid, Springer Science & Business Media, vol.6, 1995.

R. Ohayon, Reduced models for fluid-structure interaction problems, International Journal for Numerical Methods in Engineering, vol.60, pp.139-152, 2004.

R. Ohayon and C. Soize, Structural acoustics and vibration: Mechanical models, variational formulations and discretization, p.450, 1997.

R. Ohayon and C. Soize, Advanced Computational Vibroacoustics: Reduced-Order Models and Uncertainty Quantification, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01162161

R. Ohayon and C. Soize, Vibration of structures containing compressible liquids with surface tension and sloshing effects. Reduced-order model, Computational Mechanics, vol.55, pp.1071-1078, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01081488

R. Ohayon and C. Soize, Nonlinear model reduction for computational vibration analysis of structures with weak geometrical nonlinearity 455 coupled with linear acoustic liquids in the presence of linear sloshing and capillarity, Computers & Fluids, vol.141, pp.82-89, 2016.

M. W. Olson, Some experimental observations on the nonlinear vibration of cylindrical shells, AIAA Journal, vol.3, pp.1775-1777, 1965.

M. P. Paidoussis, Fluid-structure interactions: slender structures and axial flow, vol.1, 1998.

J. S. Schotté and R. Ohayon, Incompressible hydroelastic vibrations: finite element modelling of the elastogravity operator, Computers & structures, vol.83, pp.209-219, 2005.

J. S. Schotté and R. Ohayon, Linearized formulation for fluid-structure interaction: Application to the linear dynamic response of a pressurized elastic structure containing a fluid with a free surface, Journal of Sound and Vibration, vol.332, pp.2396-2414, 2013.

I. M. Strand and O. M. Faltinsen, Linear sloshing in a 2d rectangular tank with a flexible sidewall, Journal of Fluids and Structures, vol.73, pp.70-81, 2008.

O. C. Zienkiewicz, R. L. Taylor, O. C. Zienkiewicz, and R. L. Taylor, The finite element method, vol.36, 1977.