Download scientific diagram | | The multi-material 3D printed hexagon-twist origami structure. (A) Multi-stable research about hexagon-twist origami structure with different size ( h-H: h and H denotes the height of the inner and outer hexagon, respectively). Scale bar, 30 mm. (B) The multi-stable states of 3D printed hexagon-twist origami structure with size 30-100. Scale bar, 10 mm. from publication: Hexagon-Twist Frequency Reconfigurable Antennas via Multi-Material Printed Thermo-Responsive Origami Structures | The origami structure has caused a great interest in the field of engineering, and it has fantastic applications in the deployable and reconfigurable structures. Owing to the unique multi-stable states, here a typical hexagon-twist origami structure is fabricated via | Origami, Print and Antennas | ResearchGate, the professional network for scientists.
Origami Tessellation Basics: Hexagon Twist
Out of Plane: Utilizing Auxetic Origami Systems to Optimize Synclastic Curvature by Daniel Vrana - Issuu
Origami-inspired metamaterial with compression–twist coupling effect for low-frequency vibration isolation - ScienceDirect
A three-dimensional actuated origami-inspired transformable metamaterial with multiple degrees of freedom
Multimaterial 3D printing with a twist
3D Tessellation Hexagon Twist Hexagon, Architecture design sketch, Origami
Mingji CHEN, Professor (Associate), PhD, Beijing Institute of Technology, Beijing, BIT, Advanced Structure Technology
Tessellations - Origami by Michał Kosmulski
Mingji CHEN, Professor (Associate), PhD, Beijing Institute of Technology, Beijing, BIT, Advanced Structure Technology
Meta-materials of Re-entrant Negative Poisson's Ratio Structures Made from Fiber-Reinforced Plastics: A Short Review
Multimaterial 3D printed self-locking thick-panel origami metamaterials
The multi-material 3D printed hexagon-twist origami structure. (A)
PDF) Hexagon-Twist Frequency Reconfigurable Antennas via Multi-Material Printed Thermo-Responsive Origami Structures
Hex Twist Star (CFW 104) - Origami by Michał Kosmulski