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Authors
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Kretzschmar, V. ; Rocha, A. C. A. ; Gunther, F. ; Stommel, M. ; Scheuermann, G.
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Title
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Stress visualization for interface optimization of a hybrid component using surface tensor spines
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Date
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01.03.2022
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Number
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60140
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Abstract
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In lightweight construction, engineers focus on designing and optimizing lightweight components without compromising their strength and durability. In this process, materials such as polymers are commonly considered for a hybrid construction, or even used as a complete replacement. In this work, we focus on a hybrid component design combining metal and carbon fiber reinforced polymer parts. Here, engineers seek to optimize the interface connection between a polymer and a metal part through the placement of load transmission elements in a mechanical millimetric mesoscale level. To assist engineers in the placement and design process, we extend tensor spines, a 3-D tensor-based visualization technique, to surfaces. This is accomplished by combining texture-based techniques with tensor data. Moreover, we apply a parametrization based on a remeshing process to provide visual guidance during the placement. Finally, we demonstrate and discuss real test cases to validate the benefit of our approach.
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Publisher
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IEEE Computer Graphics and Applications
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Wikidata
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Citation
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IEEE Computer Graphics and Applications 42 (2022) 45-55
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DOI
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https://doi.org/10.1109/MCG.2022.3149875
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Tags
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