Article ID: | iaor20126664 |
Volume: | 46 |
Issue: | 5 |
Start Page Number: | 727 |
End Page Number: | 738 |
Publication Date: | Nov 2012 |
Journal: | Structural and Multidisciplinary Optimization |
Authors: | Wadbro Eddie, Kasolis Fotios, Berggren Martin |
Keywords: | design |
We suggest a boundary shape optimization approach in which the optimization is carried out on the coefficients in a boundary parameterization based on a local, discrete curvature. A fixed mesh is used to numerically solve the governing equations, in which the geometry is represented through inhomogeneous coefficients, similarly as done in the material distribution approach to topology optimization. The method is applied to the optimization of an acoustic horn in two space dimensions. Numerical experiments show that this method can calculate the horn’s transmission properties as accurately as a traditional, body‐fitted approach. Moreover, the use of a fixed mesh allows the optimization to create shapes that would be difficult to handle with a traditional approach that uses deformations of a body‐fitted mesh. The parameterization inherently promotes smooth designs without unduly restriction of the design flexibility. The optimized, smooth horns consistently show favorable transmission properties.