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Article
Publication date: 1 April 1990

Rolf Lammering

Structural analysis of advanced propellers (propfans) is only possible by use of numerical methods because, due to the geometry and the loading, a geometrically non‐linear…

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Abstract

Structural analysis of advanced propellers (propfans) is only possible by use of numerical methods because, due to the geometry and the loading, a geometrically non‐linear calculation is required. Algorithms applicable to the finite element method are presented and employed in the calculation of a propfan‐blade. This blade is discretized as a shallow shell. The constitutive equations for isotropic and for layered material are implemented into the formulation of the finite elements. The quasistatic deformations resulting from centrifugal forces as well as the eigenmodes and eigenfrequencies (as a function of rotational speed) are presented. For a propfan‐blade of composite material the methods of mathematical optimization are used to minimize the displacement at the tip of the blade, using the fibre orientation as design variables. In a second calculation, the twisting of the blade is minimized. It is shown that the deformation behaviour can greatly be influenced by the fibre orientation.

Details

Engineering Computations, vol. 7 no. 4
Type: Research Article
ISSN: 0264-4401

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