Optimizing heterogeneous elastic material distributions on 3D models
Optimizing heterogeneous elastic material distribution on a 3D part to achieve desired deformation behavior is an important task in computer-aided design and additive manufacturing. This paper presents a solution to this problem, which involves interactive design, automatic deformation generation, a...
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sg-ntu-dr.10356-1808212024-10-29T00:56:32Z Optimizing heterogeneous elastic material distributions on 3D models Li, Haoxiang Zhang, Wenjing Zheng, Jianmin Davis, Edward Dale Zeng, Jun College of Computing and Data Science HP-NTU Digital Manufacturing Corporate Lab Computer and Information Science Interactive design Elastic materials Optimizing heterogeneous elastic material distribution on a 3D part to achieve desired deformation behavior is an important task in computer-aided design and additive manufacturing. This paper presents a solution to this problem, which involves interactive design, automatic deformation generation, and optimization of spatial distribution of heterogeneous elastic materials. Our method improves previous techniques in three aspects. First, we incorporates a geometric deformation-based interactive design into FEM-based optimization, which makes the solution less dependent of initial guesses of Young's modulus values and it more likely to produce the target design even with sparse user input of displacements and forces at a limited set of mesh vertices. Second, we formulate the problem as an L2- or L0-optimization problem. The L2 formulation outputs smoothly varying heterogeneous material distribution that accommodates multiple functions within a single part. The L0 formulation achieves the computation of sparse material distribution in one step, which is beneficial for additive manufacturing with multi-material printers. Third, we utilize the adjoint method to derive formulae for efficiently computing the gradient of the objective functions, making it possible to quickly solve the optimization problem in the full-dimensional space of materials, which was previously infeasible. The experiments demonstrate the robustness and efficiency of our approach. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) This work is supported by MOE AcRF Tier 1 Grant of Singapore (RG12/22), and also supported under the RIE2020 Industry Alignment Fund – Industry Collaboration Projects (IAF-ICP) Funding Initiative, as well as cash and in-kind contribution from the industry partner, HP Inc., through the HP-NTU Digital Manufacturing Corporate Lab. 2024-10-29T00:56:31Z 2024-10-29T00:56:31Z 2024 Journal Article Li, H., Zhang, W., Zheng, J., Davis, E. D. & Zeng, J. (2024). Optimizing heterogeneous elastic material distributions on 3D models. Computer Aided Design, 175, 103748-. https://dx.doi.org/10.1016/j.cad.2024.103748 0010-4485 https://hdl.handle.net/10356/180821 10.1016/j.cad.2024.103748 2-s2.0-85197033742 175 103748 en RG12/22 Computer Aided Design © 2024 Elsevier Ltd. All rights are reserved, including those for text and data mining, AI training, and similar technologies. |
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Computer and Information Science Interactive design Elastic materials Li, Haoxiang Zhang, Wenjing Zheng, Jianmin Davis, Edward Dale Zeng, Jun Optimizing heterogeneous elastic material distributions on 3D models |
| description |
Optimizing heterogeneous elastic material distribution on a 3D part to achieve desired deformation behavior is an important task in computer-aided design and additive manufacturing. This paper presents a solution to this problem, which involves interactive design, automatic deformation generation, and optimization of spatial distribution of heterogeneous elastic materials. Our method improves previous techniques in three aspects. First, we incorporates a geometric deformation-based interactive design into FEM-based optimization, which makes the solution less dependent of initial guesses of Young's modulus values and it more likely to produce the target design even with sparse user input of displacements and forces at a limited set of mesh vertices. Second, we formulate the problem as an L2- or L0-optimization problem. The L2 formulation outputs smoothly varying heterogeneous material distribution that accommodates multiple functions within a single part. The L0 formulation achieves the computation of sparse material distribution in one step, which is beneficial for additive manufacturing with multi-material printers. Third, we utilize the adjoint method to derive formulae for efficiently computing the gradient of the objective functions, making it possible to quickly solve the optimization problem in the full-dimensional space of materials, which was previously infeasible. The experiments demonstrate the robustness and efficiency of our approach. |
| author2 |
College of Computing and Data Science |
| author_facet |
College of Computing and Data Science Li, Haoxiang Zhang, Wenjing Zheng, Jianmin Davis, Edward Dale Zeng, Jun |
| format |
Article |
| author |
Li, Haoxiang Zhang, Wenjing Zheng, Jianmin Davis, Edward Dale Zeng, Jun |
| author_sort |
Li, Haoxiang |
| title |
Optimizing heterogeneous elastic material distributions on 3D models |
| title_short |
Optimizing heterogeneous elastic material distributions on 3D models |
| title_full |
Optimizing heterogeneous elastic material distributions on 3D models |
| title_fullStr |
Optimizing heterogeneous elastic material distributions on 3D models |
| title_full_unstemmed |
Optimizing heterogeneous elastic material distributions on 3D models |
| title_sort |
optimizing heterogeneous elastic material distributions on 3d models |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/180821 |
| _version_ |
1814777730854551552 |