In this paper the finite element method was used to analyze the damage states of double hull structures struck by a rigid conical body to understand the failure mechanism of each structural component. The damages of double hull structures were classified into four fundamental damage modes, which are the stretching mode, the tearing mode and the penetration mode of plates, as well as the denting mode for single girder and crossing girders. The simplified formulae for approximation of energy dissipation and impact resistance of four fundamental damage modes were derived. The overall energy dissipation and impact resistance of a stuck double-hull structures can be estimated by assembly of these fundamental failure mechanisms. Finally, the experimental models of double-hull structure from Wang (2000) were selected as case studies. The damage states of double-hull structures were analyzed by FEM. The impact resistance of the struck structure was also calculated by approximated method. The results obtained from experiment, FE-analysis and the approximate methods have good agreements.