We present a novel de-homogenization approach for efficient design of high-resolution load-bearing structures. The proposed approach builds upon a streamline-based parametrization of the design domain, using a set of space-filling and evenly-spaced streamlines in the two mutually orthogonal direction fields that are obtained from homogenization-based topology optimization. Streamlines in these fields are converted into a graph, which is then used to construct a quad-dominant mesh whose edges follow the direction fields. In addition, the edge width is adjusted according to the density and anisotropy of the optimized orthotropic cells. In a number of numerical examples, we demonstrate the mechanical performance and regular appearance of the resulting structural designs, and compare them with those from classic and contemporary approaches.
@article{arxiv.2207.09172,
title = {A Streamline-guided De-Homogenization Approach for Structural Design},
author = {Junpeng Wang and Rüdiger Westermann and Jun Wu},
journal= {arXiv preprint arXiv:2207.09172},
year = {2022}
}
Comments
10 pages, 13 figures, submitted to Journal, under review