An underwater explosion usually contains two stages: shock wave and bubble pulse stages. A shock wave and free surface interaction produces a bulk cavitation. At the bubble pulse stage, the bubble expands and contracts during the collapse phase of the bubble, and a high-speed jet is produced. Bulk cavitation and high-speed jets may severely damage the structure of a ship. Therefore, this paper presents a study on the effect of bulk cavitation on structures in an underwater explosion. To investigate the aforementioned problems, the Finite Element Method was applied. The Coupled Eulerian-Lagrangian technique embedded in ABAQUS software was used to determine the structural dynamic response of a ship subject to bulk cavitation induced by underwater explosion during a simulation. Furthermore, in this paper, the response of a plate to the shock wave induced by the underwater explosion is examined and verified according to the experimental study of Ramajeyathilagam [14]. To study the effects of bulk cavitation, a ship model was used as the study object. The numerical results in this study may provide helpful information for ship design.