Publikation: Optimizing fiber orientation in fiber-reinforced materials using efficient upscaling
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2015
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Computational Optimization and Applications. Springer. 2015, 62(1), pp. 111-129. ISSN 0926-6003. eISSN 1573-2894. Available under: doi: 10.1007/s10589-013-9630-z
Zusammenfassung
We present an efficient algorithm to find an optimal fiber orientation in composite materials. Within a two-scale setting fiber orientation is regarded as a function in space on the macrolevel. The optimization problem is formulated within a function space setting which makes the imposition of smoothness requirements straightforward and allows for rather general convex objective functionals. We show the existence of a global optimum in the Sobolev space H 1(Ω). The algorithm we use is a one level optimization algorithm which optimizes with respect to the fiber orientation directly. The costly solve of a big number of microlevel problems is avoided using coordinate transformation formulas. We use an adjoint-based gradient type algorithm, but generalizations to higher-order schemes are straightforward. The algorithm is tested for a prototypical numerical example and its behaviour with respect to mesh independence and dependence on the regularization parameter is studied.
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Fachgebiet (DDC)
510 Mathematik
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Pde constrained optimization, Adjoint-based optimization, Microstructural optimization, Fiber-reinforced materials, Fiber orientation, Linear elasticity, Upscaling
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FREI, Stefan, Heiko ANDRÄ, René PINNAU, Oliver TSE, 2015. Optimizing fiber orientation in fiber-reinforced materials using efficient upscaling. In: Computational Optimization and Applications. Springer. 2015, 62(1), pp. 111-129. ISSN 0926-6003. eISSN 1573-2894. Available under: doi: 10.1007/s10589-013-9630-zBibTex
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title={Optimizing fiber orientation in fiber-reinforced materials using efficient upscaling},
number={1},
volume={62},
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journal={Computational Optimization and Applications},
pages={111--129},
author={Frei, Stefan and Andrä, Heiko and Pinnau, René and Tse, Oliver}
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