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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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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
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Language:	English
Subjects:	Applied computing Computational geometry Computer-aided design Mathematics and statistics Theory of computation
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creator	Stutz, Florian Cyril Olsen, Tim Felle Groen, Jeroen Peter Trung, Tuan Nguyen Aage, Niels Sigmund, Ole Solomon, Justin Bærentzen, Jakob Andreas
description	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.
doi_str_mv	10.1145/3516522
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subjects	Applied computing Computational geometry Computer-aided design Mathematics and statistics Theory of computation
title	Synthesis of Frame Field-Aligned Multi-Laminar Structures
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