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MMC group
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  • Research
    • Unsupervised discovery of constitutive laws
    • Data-driven inverse design
    • Spinodoid metamaterials
    • Synthetic bone
    • Topology optimization with tunable anisotropy
    • Meshless modeling
    • Microstructures
    • Nano & continuum rods
  • Publications
  • Codes
  • Student projects
  • Join us!
MMC group
  • Home
  • People
  • Research
    • Unsupervised discovery of constitutive laws
    • Data-driven inverse design
    • Spinodoid metamaterials
    • Synthetic bone
    • Topology optimization with tunable anisotropy
    • Meshless modeling
    • Microstructures
    • Nano & continuum rods
  • Publications
  • Codes
  • Student projects
  • Join us!
  • More
    • Home
    • People
    • Research
      • Unsupervised discovery of constitutive laws
      • Data-driven inverse design
      • Spinodoid metamaterials
      • Synthetic bone
      • Topology optimization with tunable anisotropy
      • Meshless modeling
      • Microstructures
      • Nano & continuum rods
    • Publications
    • Codes
    • Student projects
    • Join us!

Research

Material model discovery

Inverse design of (meta-)materials

Spinodoid metamaterials

Synthetic bone

ML-driven topology optimization

Microstructures

Meshless modeling for extreme deformations

Nano and continuum rods


TU Delft, Mekelweg 2, Delft 2628 CD, Netherlands


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