Generating sparse self-supporting wireframe models for 3D printing using mesh simplification
Xiuping Liu (Dalian University of Technology)
Liping Lin (Dalian University of Technology)
J. Wu (TU Delft - Materials and Manufacturing)
Weiming Wang (TU Delft - Materials and Manufacturing, Dalian University of Technology)
Baocai Yin (Dalian University of Technology)
Charlie C.L. Wang (TU Delft - Materials and Manufacturing)
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Abstract
Wireframe models are becoming a popular option in 3D printing. Generating sparse wireframe models using classic mesh simplification methods leads to models that require a lot of support structures in the layer-upon-layer additive process. In this paper we present a mesh simplification method that takes into account the overhang angle. Specifically, we propose a metric for self-supportability. By combining this novel metric together with the classic error metrics for mesh simplification, our method generates sparse wireframe models that need much less supports. Moreover, the operations of vertex position optimization and edge flipping are used to further increase self-supportability of the wireframe models. We demonstrate the effectiveness of the proposed method on a number of 3D models.
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