Abstract
The body of a craft is subjected to a series of complex loads, both static and dynamic. The global strength of such a body is given by the entire assembly of the hull, deck and strengthening framing system, all of these components working together [1]. Such a boat must first of all fulfill a very important requirement, namely: minimum hull resistance so that the engine power would primarily be used to achieve the highest possible speed. This can only be achieved if the hull wetted surface is as small as possible, which leads to the need to reduce the hull asembly weight. Thus, in this paper there are proposed and tested a number of nine lamination alternatives for the initial structure, designed as a sandwich system with different types of core materials. From the total nine alternatives, three of them are hybrid structures in which there are explored structural alternatives with several types of core materials. The verification of structures obtained with the proposed materials and lamination schedules was made using numerical methods both for naval hydrodynamics to determine loads and for naval structures for global body strength and analysis.
Highlights
The body of a craft is subjected to a series of complex loads, both static and dynamic
These measured values were compared with the results of the numerical analysis, considering the material first formulated on the craft numerical model as isotropic material using the FEMAP finite element analysis software
The same numerical analysis was performed considering the composite as orthotropic material, using a FEMAP specialized module for laminate materials
Summary
A tilt and speed transducers were installed to validate the loads used for the numerical hydrodynamic model These measured values were compared with the results of the numerical analysis, considering the material first formulated on the craft numerical model as isotropic material (recommended by the classification rules) using the FEMAP finite element analysis software. The aim of the lamination of this piece was to take a series of samples from different areas of the shell (keel, bottom, sideboard) in order to test them in the laboratory, using the Instron 8002 test machine from Dunarea de Jos University of Galati From this sample a total of 11 test specimens of sized 20x300 mm were extracted. --I-------VVEνννGGGnTLfmfmLfmTTtiitiisasisishiissssbtettthththhttlhhhhseeeeeeheeevPbe3PPvossoeaooohhlitnriusileehssudsmmsaasemoioorrnoennnepmgmdtrctlcueicraoeociololncducaeereaussfharfffrtafltfiaoiiuciimtccocnfisiioieitteoieoyohcnondnffeatmftutttolhrtholoohuefeceffdeistnhtrthumhheomfaeloeeiufarnrartsatmclfhetr;aocreiiemxinartmxc;etlf.airoenreimrxminecs;;titeen;imncats;e; notf; the reinforcement layers used in the manufacturing of the
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