OSME 7 - Volume 4
Engineering Two
Published on 30. July 2021
386 pages
978-1-85811-839-0 (ISBN)
Description
Edited by Robert J. Lang, Mark Bolitho and Zhong You with a committee of 14 other expertsOrigami7 is a collection of papers published for the 7th International Meeting on Origami in Science, Mathematics and Education (7OSME), held at Oxford University in the United Kingdom from September 4-7, 2018. 7OSME is the seventh conference in a series dedicated to research in the applications of origami and folding in the conference title fields, as well as in technology, design and history. Volume 4: Engineering TwoWith a preface by Zhong YouPapers on engineering. Papers published include research into diverse folding applications and products, adding strength to defensive shields, reinforcing tube strength, development of space sails, and the applications of folding processes to robotics. Some papers also explore the mechanical properties of the Miura fold, curved folding, and tessellations.
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Robert J. Lang | Mark Bolitho | Zhong You
OSME 7: Volume 4: Engineering Two 4
The proceedings from the seventh meeting of Origami, Science, Mathematics and Education
Book
09/2018
Tarquin Publications
€64.64
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Content
- Cover
- Title
- Copyright
- Origami7 Volume 4 Contents
- Origami7 General Preface
- Origami7 Volume Four Preface
- Producing Various Shapes of 3D Cell Co-culture Microstructures using a Single Cell OrigamiTechnique
- Singular Behaviour on Folding Path Characterised by Rigid Foldability Analysis
- Automated Numerical Process Chain for the Design of Folded Sandwich Cores
- Spherical Image Analysis for Folding Templates
- Kinematic and Kinetostatic Classification for Motion-Task-Oriented Synthesis of Folding Mechanisms
- Origami Sensitivity - On the Influence of Vertex Geometry
- On Using Tessellation Properties for the Development of Classifying Criteria for Foldable Mechanisms
- Simulating Pleated Tension Folds
- Modelling the Folding Motions of a Curved Fold
- Fast, Interactive Origami Simulation using GPU Computation
- Highly Efficient Nonlinear Structural Analysis of Origami Assemblages using the MERLIN2 Software
- Rigid-facet Kinematics Coupled with Finite Bending Rotation along Crease Lines
- Quasi-static Crushing Behaviours of Folded Opentop Truncated Pyramid Structures with Interconnected Side Walls
- Blast Resistant Performance of Cladding with Folded Open-top Truncated Pyramid Structures as Core
- The Potential of Stress Oriented Foldings
- Local Actuation of Tubular Origami
- Elastic Buckling of Thin-walled Cylinders with Pre-embedded Diamond Patterns
- Reality Check - Mechanical Potential of Tessellation-based Foldcore Materials
- Design Methods and Analysis of the Mechanical Properties of Resch Pattern Foldcores
- The Mechanics of Metallic Folds
- Crease Pattern Simplification for Automatic Folding
- Folding Fabrication of Curved-Crease Origami Spindle Beams
- Fold Printing: Using Digital Fabrication of Multi-Materials for Advanced Origami Prototyping
- Kirigami Fabrication of Shaped, Flat-foldable Cellular Materials based on the Tachi-Miura Polyhedron
- The Editors of Origami7
- 7OSME Sponsors and Supporting Partners
- Acknowledgements
- Engineering Contributors
- Origami7 Index
- Back Cover
