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http://dx.doi.org/10.12989/sem.2006.23.3.293

Formulation for seismic response of a ship-block system  

Kuchaksarai, Masoud Moghaddasi (Faculty of Engineering, University of Tehran)
Bargi, Khosrow (Faculty of Engineering, University of Tehran)
Publication Information
Structural Engineering and Mechanics / v.23, no.3, 2006 , pp. 293-308 More about this Journal
Abstract
This paper presents a complete and consistent formulation to study the seismic response of a free-standing ship supported by an arrangement of n keel blocks which are all located in a dry dock. It is considered that the foundation of the system is subjected to both horizontal and vertical in plane excitation. The motion of the system is classified in eight different modes which are Rest (relative), Sliding of keel blocks, Rocking of keel blocks, Sliding of the ship, Sliding of both keel blocks and the ship, Sliding and rocking of keel blocks, Rocking of keel blocks with sliding of the ship, and finally Sliding and rocking of keel blocks accompanied with sliding of the ship. For each mode of motion the governing equations are derived, and transition conditions between different modes are also defined. This formulation is based on a number of fundamental assumptions which are 2D idealization for motion of the system, considering keel blocks as the rigid ones and the ship as a massive rigid block too, allowing the similar motion for all keel blocks, and supposing frictional nature for transmitted forces between contacted parts. Also, the rocking of the ship is not likely to take place, and the complete ship separation from keel blocks or separation of keel blocks from the base is considered as one of the failure mode in the system. The formulation presented in this paper can be used in its entirety or in part, and they are suitable for investigation of generalized response using suitable analytical, or conducting a time-history sensitivity analysis.
Keywords
free-standing ship; keel blocks; coulomb friction; horizontal and vertical base excitation; non-linear dynamic analysis; seismic response;
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