Search Constraints
Search Results
Select an image to start the slideshow
Deep-learning-based inverse design of three-dimensional architected cellular materials with the target porosity and stiffness using voxelized Voronoi lattices
1 of 9
Controllable inverse design of auxetic metamaterials using deep learning
2 of 9
Characterization of the Strain-Rate-Dependent Plasticity of Alloys Using Instrumented Indentation Tests
3 of 9
Reprogrammable flexible mechanical metamaterials
4 of 9
Topological alternation from structurally adaptable to mechanically stable crosslinked polymer
5 of 9
Data-driven estimation of plastic properties of alloys using neighboring indentation test
6 of 9
Data-driven estimation of plastic properties in work-hardening model combining power-law and linear hardening using instrumented indentation test
7 of 9
Multi-objective topology optimization of porous microstructure in die-bonding layer of a semiconductor
8 of 9
Minimal-surface-based multiphase metamaterials with highly variable stiffness
9 of 9