R. Duella scite author profile

Thin-walled composite box beam structural configuration is representative of a specific high aspect ratio wing structure. The optimal design procedure and lay-up definition including appropriate coupling necessary for aerospace applications has been identified by means of “ad hoc” analytical formulation and by application of commercial code. The overall equivalent bending, torsional and coupled stiffness are derived and the accuracy of the simplified beam model is demonstrated by the application of Altair Optistruct. A simple case of a coupled cantilevered beam with load at one end is introduced to demonstrate that stiffness and torsion angle distribution does not always correspond to the trends that one would intuitively expect. The maximum of torsional stiffness is not obtained with fibers arranged at 45° and, at the maximum torsional stiffness, there is no minimum rotation angle. This observation becomes essential in any design process of composite structures where the constraints impose structural couplings. Furthermore, the presented theory is also extended to cases in which it is necessary to include composite/stiffened hybrid configurations. Good agreement has been found between the theoretical simplified beam model and numerical analysis. Finally, the selected composite configuration was compared to an experimental test case. The numerical and experimental validation is presented and discussed. A good correlation was found confirming the validity of the overall optimization for the optimal lay-up selection and structural configuration.

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Optimal Choice of the Foam Design Parameters in Order to Meet the HIC Index Limit of the FMVSS201 Standard

Belingardi

Duella²,

Caminiti³

2002

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R. Duella

Material characterization of a composite–foam sandwich for the front structure of a high speed train

Application of Structural Topology Optimization to Couple Thin-Walled Stiffened Box-Beams

Numerical/Experimental Validation of Thin-Walled Composite Box Beam Optimal Design

Optimal Choice of the Foam Design Parameters in Order to Meet the HIC Index Limit of the FMVSS201 Standard

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