Origami8, Volume II

Chapter 1.Fold Sensing origami gestures - a case study with Kresling kinematics-Chapter 2:Design and development of a foldable and transformable hemispherical enclosure for robotic manufacturing.- Chapter 3:Chiral origami robot with wheeled and quadcopter modes.- Chapter4:A robotic origami folder for paper cranes.- Chapter 5:Miura-Bot: Modular Origami Robots for Self-Folding Miura-Ori Tessellations.-  Chapter 6: Adaptive Stiffness and Shape Control of a Modular Origami-Inspired Robot.- Chapter 7:Re-programmable Matter by Folding: Magnetically-Controlled Origami that Self-Folds, Self-Unfolds, and Self-Reconfigures On-Demand.- Chapter 8:Origami Cellular Material Switching Between Single and Multiple DOF Modes.Chapter 9:A flat-foldable, transformable metamaterial from octahedral origami unit cells.- Chapter 10:Kresling-Inspired Constant Size Magnetically-Reconfigurable Metamaterials.- Chapter 11:Reconfigurable Mechanical Logic Module.- Chapter 12:A Flat Foldable Solid Consisting of Rhombitruncated Cuboctahedra and Regular Octagonal Prisms.- Chapter 13:Making origami musical instruments.- Chapter 14:Fahrenheit 1832: Folding for Fire Protection.- Chapter 15:Topological manifold based parametric design of chiral origami mechanisms.- Chapter 16:Symmetric self-folding of N-gon hypar origami.- Chapter 17:Theoretical Analysis on the Deformation of the Miura-Ori Patterned Sheet.- Chapter 18:Parametric Study of the Porous Origami-based Mechanical Metamaterials with Curvatures.- Chapter 19:Deformable Origami Structure Design Based on Two-Dimensional Geometric Face Shape Collocation.- Chapter 20:Earwig Fan Inspired Deployable Structures.- Chapter 21:Out-of-plane impact and energy absorption of origami honeycombs in Truck Mounted Attenuator.- Chapter 22:Research on construction of double cubic core and its application.- Chapter 23:Tessellation Manufacture by Sequential Quasi-Isometric Gradual Folding.- Chapter 24:New Kresling Origami Geometry: The Offset Cell.- Chapter 25:Kinematic Modeling of Cylindrical Origami Tessellations for Programmable Local Motion Control.- Chapter 26:Geometric Constructions of Bifoldable Polyhedral Complexes.- Chapter 27:From Flexagon to Flexahedron – Infinitely Turning Objects.- Chapter 28:Kinematics analysis of Rubik’s Magic puzzle and beyond.- Chapter 29:Motion analysis of Flexible Modular Origami: A Finite Particle Method Investigation.- Chapter 30:Cut design of pop-up origami with fixed planar substrate.- Chapter 31:Programming Origami Instabilities via Topology Optimization.

• Erscheinungsdatum: 14.02.2026
• Autor/Autorin: Guoxing Lu
• Reihe: Lecture Notes in Mechanical Engineering
• Format: E-Book
• Dateiformat: PDF
• Kopierschutz: Wasserzeichen
• Dateigröße: 65.9 MB
• Verlag: SPRINGER
• Sprache: Englisch
• Umfang: 480 Seiten
• ISBN: 9789819686612
• Lieferung: Sofort per Download
• Hinweis: Sofort per Download lieferbar. Kein physischer Versand.
• Kompatibilität: Lesbar auf Geräten und Apps mit PDF-Unterstützung.