Active Origami Modeling Design And Applications. Using the model, we design and fabricate several active origami components that assemble from flat polymer sheets, including a box, a pyramid, and two origami airplanes. A design optimization framework will be developed to integrate the modeling, design, and active materials efforts and enable system trade studies from the nano to the macro scale.
These characteristics have led to an increased interest in theoretical and computational origami among engineers from across the world. Peraza hernandez and dimitris c. Modeling, design, and applications 464.
Successful Completion Of This Project Will Foster Novel Concepts And Design Innovation In Several Application Areas.
Using the model, we design and fabricate several active origami components that assemble from flat polymer sheets, including a box, a pyramid, and two origami airplanes. Modeling, design, and applications 1st ed. Peraza hernandez (author), darren j.
Several Implementation Examples And Problems Are Provided In Each Chapter To Increase Understanding Of The Developed Theories And Challenge Further Thought;
Peraza hernandez and dimitris c. Lagoudas (author) & 0 more 2019 edition by edwin a.
Dance Also Provides Modeling And Kinematic Functionality, But Does So As An Extension Of Its Dynamic Capabilities, Rather
For applications of origami in remote locations (e.g., space, underwater) or at the small scales, however, it is impractical to apply external forces to drive the folding motion. Lagoudas, 2016, “modeling and design of active origami structures with smooth folds,” proceedings of the 27th international conference on adaptive structures and technologies (icast), lake george, new york. Lagoudas (author) & 0 more
The Ability Of Origami Designs To Be Easily Fabricated In Two Dimensions, To Enable Deployment Of Large Structures From Small Initial Volumes, And To Be Reconfigurable Has Captured The Attention Of Engineers From Across The World.
2019 edition by edwin a. Conditions (e.g., heat or magnetic). Modeling, design, and applications 464.
8 Proving This Involves Folding A Piece Of Paper Down To A Long, Narrow Rectangle.
We develop a theoretical model to provide guidance in selecting design parameters such as fiber dimensions, hinge length, and programming strains and temperature. This allows each resulting triangle on the face of the polyhedron to be covered. Modeling, design, and applications softcover reprint of the original 1st ed.