Synthesis of Frame Field-Aligned Multi-Laminar Structures

In the field of topology optimization, the homogenization approach has been revived as an important alternative to the established, density-based methods. Homogenization can represent microstructures at length scales decoupled from the resolution of the computational grid. The optimal microstructure...

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Bibliographic Details
Published in:ACM transactions on graphics 2022-05, Vol.41 (5), p.1-20, Article 170
Main Authors: Stutz, Florian Cyril, Olsen, Tim Felle, Groen, Jeroen Peter, Trung, Tuan Nguyen, Aage, Niels, Sigmund, Ole, Solomon, Justin, Bærentzen, Jakob Andreas
Format: Article
Language:English
Subjects:
Applied computing
Computational geometry
Computer-aided design
Mathematics and statistics
Theory of computation
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Summary:In the field of topology optimization, the homogenization approach has been revived as an important alternative to the established, density-based methods. Homogenization can represent microstructures at length scales decoupled from the resolution of the computational grid. The optimal microstructure for a single load case is an orthogonal rank-3 laminate.Initially, we investigate where singularities occur in orthogonal rank-3 laminates and show that the laminar parts of the structures we seek are unaffected by the singularities. Based on this observation, we propose a method for generating multi-laminar structures from frame fields that describe rank-3 laminates. Rather than establishing a parametrization of the domain, we compute stream surfaces that align with the frame fields and solve an optimization problem to find a well-spaced collection of such stream surfaces. Since our method does not rely on a parametrization, we also do not need a combing of the frame fields to generate this collection. Finally, we provide a method for synthesizing multi-laminar structures from a stream surface collection. This method produces a volumetric solid for each surface and combines these to form the output.We demonstrate our method on several frame fields produced by the homogenization approach to topology optimization.
ISSN:0730-0301
1557-7368
DOI:10.1145/3516522