๐ฌ Postdoctoral Researcher in Mechanical Engineering
๐ซ The University of Hong Kong
I work in computational mechanics and structural design, with research interests spanning structural optimization, micro-nano mechanics, thin-walled structures, shell mechanics, metamaterials, and computational geometry.
My previous work focused on the explicit design of complex shell structures, where I combined the Moving Morphable Components (MMC) method with computational conformal mapping and related geometric techniques to handle optimization problems on complex curved surfaces.
I am currently extending these interests to micro-/nano-systems, multifunctional metamaterials, and AI-enabled computational design, with the goal of developing mechanics- and geometry-guided design frameworks for advanced material and structural systems.
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Structural optimization and design
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Deep elastic strain engineering for diamond semiconductors
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Computational geometry for mechanics and computational mechanics for graphics
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AI-assisted design in mechanics and materials
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Shell and thin-walled structures
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Stiffener and topography-based attachment design
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Mechanics of metamaterials and multifunctional structures
Programming & Computing
Python, MATLAB, C#, C++, Fortran
Numerical Methods
FEM, BEM, IGA, PDE-constrained optimization, topology/shape/size/layout modeling and design, conformal mapping, surrogate modeling
Software & Tools
ABAQUS, OptiStruct, ANSYS, COMSOL, Rhino/Grasshopper, LAMMPS
๐ Google Scholar
I am open to academic collaboration in areas related to, but not limited to:
- computational structural mechanics
- geometry-informed mechanical design
- structural and topology optimization
- shell and thin-walled structures
- flexible and lightweight structures
- metamaterials and multifunctional design
- AI for mechanics and materials design
- Email: huowd@hku.hk, huowd.cmech@gmail.com
- GitHub: @Wendong-Huo
- Languages: Chinese | English
Thanks for visiting my GitHub! Feel free to explore my repositories or reach out if you're interested in collaborating.