论文信息 - A mixed finite element method for the dynamic analysis of coupled fluid–solid interaction problems

A mixed finite element method for the dynamic analysis of coupled fluid–solid interaction problems

On the basis of a variational principle, a mixed finite element approach is developed to describe the linear dynamics of coupled fluid–structure interactions. The variables of acceleration in the elastic solid and pressure in the fluid are adopted as the arguments of the variational principle. These are chosen since they directly relate to many practical fluid–structure interaction dynamic problems involving free surface disturbances, e. g. a dam-water system, a fuel cell in an aircraft, etc. Matrix equations describing the motions are presented and four methods of solution discussed, each simplifying and approximating the matrix equations for easier application to solve various types of engineering problems. This is demonstrated by analysing a selection of fluid–structure interaction problems of practical interest. The examples illustrate the general principle and application of the described functional approach without need to resort to more complex dynamic problems which can be analysed in a similar manner.

W. G. Price | Jing Tang Xing | W. Price | J. Xing

[1] Hasan U. Akay,et al. Applicability of general-purpose finite element programs in solid-fluid interaction problems , 1979 .

[2] A. Craggs. The transient response of a coupled plate- acoustic system using plate and acoustic finite elements , 1971 .

[3] Yves Ousset,et al. A displacement method for the analysis of vibrations of coupled fluid-structure systems , 1978 .

[4] Werner Israel,et al. An introductory survey , 1979 .

[5] O. Zienkiewicz,et al. Dynamic transient behaviour of two‐ and three‐dimensional structures including plasticity, large deformation effects and fluid interaction , 1976 .

[6] J. Z. Zhu,et al. The finite element method , 1977 .

[7] O. C. Zienkiewicz,et al. Fluid‐structure dynamic interaction and wave forces. An introduction to numerical treatment , 1978 .

[8] K. Bathe,et al. Analysis of fluid-structure interactions. a direct symmetric coupled formulation based on the fluid velocity potential , 1985 .

[9] W. G. Price,et al. Hydroelasticity of Ships , 1980 .

[10] B. Irons,et al. Role of part-inversion in fluid-structure problems with mixed variables , 1970 .

[11] Maurice Petyt,et al. Finite element analysis of the noise inside a mechanically excited cylinder , 1978 .

[12] G. C. Feng,et al. Fluid-Structure Finite Element Vibrational Analysis , 1974 .