Some potential computational/geometrical Miura-Ori related research prompts:
- Improve Miura-Ori computational discretization scheme
- Currently only applicable to origami sheets with triangular or quadrilateral panels
- Used to improve accuracy and to enable analysis of origami sheets with arbitrary origami panels
- Re-design the constitutive relationship of bars and rotational springs to better reflect physical behaviors of specific origami structures
- Maybe consider the global contact of sheets
- Develop experimental models and perform compression tests to verify the computational parametric analysis results of Miura-Ori metamaterial geometry under quasistatic compressive loads
- Computationally analyze the practical engineering applications of MMG (Miura-ori Metamaterial Geometry) cellular solids for energy absorption purposes
- Adopting origami megastructures and metamaterials in dynamic applications
- Extend continuum geometric approaches for Miura-Ori to curvygami, kirigami, etc.
- Analyze elastic energy of Miura-ori panels
- Generate Miura-Ori substrates from one piece of magneto-active elastomers (MAE) material
- Photo-curing and magnetically poling in prescribed directions for panels individually
- Allow for thinner substrates, better actuation
- Photo-curing and magnetically poling in prescribed directions for panels individually
- Analyze how altering the geometry of Miura-Ori effects magneto-active effect elastomers in activating the the pattern
- Miura-Ori patterns with vertical creases at a larger angle from the vertical may allow for easier actuation
- Programming origami bi-stability
- Tailoring the origami bistable dynamics