DUBLIN--(BUSINESS WIRE)--Research and Markets (http://www.researchandmarkets.com/research/6xfltm/plants_and_mechani) has announced the addition of the "Plants and Mechanical Motion: A Synthetic Approach to Nastic Materials and Structures" book to their offering.
Beginning with the basics of plant motion, this book explains technologies for translating plant-like movements to new adaptive materials, with explicit reference to helicopter and aeronautic applications. The first part of the book focuses on energy transport strategies using transport protein pressurization, ion intercalation, electrosmosis/electromigration and closed-cell gas generation.
Part two concentrates on the mechanics and applications of fluidic muscle-like materials bioinspired by fibrillar plant tissue for use in soft robotics, biomimetic robots, and morphing aeronautical structures. Each chapter covers analytical models, test results, design and troubleshooting. The information in the text is meant to assist materials scientists and engineers to initiate research and design in the field of nastic materials and structures.
- Soft actuator design, soft robotics, novel adaptive materials
- Applications to helicopter blades, aircraft wings, ship hulls, solar collectors
Key Topics Covered:
1. Plants and Mechanical MotionA Synthetic Approach to Nastic Materials and Structures
2. Controllable Microhydraulic Actuation Using Biological Ion Transporters
3. Electrochemical Actuators Utilizing Solid-State Intercalation Compounds and Their Applications to Smart Structures
4. Electroosmotically-Actuated Hydrogel for Nastic Actuation
5. Electrochemical/Combustion Actuation to Achieve Helicopter Blade Twist
6. Learning from PlantsRecent Advances in Fluidic Flexible Matrix Composite based Multi-Cellular and Multi-Functional Adaptive Structures
7. Soft Robotic Manipulators: Design, Analysis, and Control
8. Plant-Inspired Flexible Matrix Composite Actuators for Biomimetic Underwater Propulsion Systems
9. Bio-Inspired Pneumatic Artificial Muscle Actuation of Trailing Edge Flaps in a Helicopter Rotor
10. Final Discussion and Conclusions
For more information visit http://www.researchandmarkets.com/research/6xfltm/plants_and_mechani