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Generative Design of Multi-Material Hierarchical Structures via Concurrent Multi-Scale Topology Optimization & Conformal Geometry Method |
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· The multiple material phases are modeled via the ‘color level set’ representation. · The overall structure topology and multiple constructing material properties are determined simultaneously in the CBF-based parametric level set framework. · The final structure is assembled by the multi-control-point conformal mapping. · Thickness-variable structures can be introduced to help preserve the designed structural performance. |
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The ‘Color Level Set’ Multimaterial Representation |
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The Flow Chart of the Entire Optimization and Mapping |
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The Design Boundary Conditions: |
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The Metamaterials with the Optimal Effective Properties |
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The Optimization Convergence History of the MBB Beam Structure |
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Representative publications: Conference: Long Jiang, Shikui Chen and Xianfeng David Gu. "Generative Design of Multi-Material Hierarchical Structures via Concurrent Multi-Scale Topology Optimization & Conformal Geometry Method." ASME Proceedings of IDETC/CIE, August 18-21, 2019, Anaheim , CA.
Journal: Long Jiang, Xianfeng David Gu, Shikui Chen, "“Generative Design of Bionic Structures via Concurrent Multiscale Topology Optimization & Conformal Geometry Method ", ASME Journal of Mechanical Design, accepted.
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The Region-be-region Multi-control-point Conformal Mapping (R-MCM) |
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The Corresponding Thickness Value and the CAD Model of the MBB Beam |
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The All-in-one Multi-control-point Conformal Mapping (A-MCM) |
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The Corresponding Thickness Value and the CAD Model of the MBB Beam |
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The 3D Printed MBB Beam |
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Please refer to our publications for the thickness-variable structure details. |