Publisher : The Society of Naval Architects of Korea
DOI : 10.3744/SNAK.2016.53.2.108
Title & Authors
Structural Strength Assessment and Optimization for 20 Feet Class Power Boat Yum, Jae-Seon; Yoo, Jaehoon;
Recently, there has been a growing interest in marine leisure sports and high speed power boat for fishing. The prototype of 20 feet class power boat was developed and authors are joined in this government-led project. The research was performed to evaluate the optimal structure and design of the structural strength necessary to ensure the structural safety of the power boat. A new material ROCICORE fiber added to the mat and roving was adopted for high-power tenacity. ANSYS Workbench has been used to make the structural model, evaluate the strength and optimize the structural design. The response of the structure to quasi-static slamming loads according to the rules and regulations of ISO 12215-5, Lloyd’s Register of Shipping and Korean Register has been implemented and studied. An optimization study for the structural response is carried out by changing the plate thickness and section modulus of stiffeners. The power boat structure derived fuel efficiency is optimized by performing the best possible structural design to minimize the hull weight.
Power boat;Design pressure;Structural analysis;Structural optimization;
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