Register Cart 0

Soft Robotics

Back Book Details

Theoretical and Experimental Investigations of Magnetic Hybrid Materials with Applications for Locomotion, Manipulation and Sensor Systems in Soft Robotics

Author(s): Klaus Zimmermann*, Valter Böhm, Jhohan Chavez, Tatiana Becker, Nina Prem and Florian Schale

Pp: 90-116 (27)

DOI: 10.2174/9789815051728122010006

* (Excluding Mailing and Handling)

Abstract

New applications of mobile robots, especially in inspection technology,

medical technology and1 rescue scenarios in unstructured environments, have led to

increasing integration of functions in place of separate function-specific modules. This

development process already begins with the material. With the development of smart

materials, it has become possible to process energy, material and information in one

component. Magnetic hybrid materials such as magneto active elastomers (MAEs)

belong to such a class of smart materials. MAEs consist of a non-magnetic elastic

matrix with magnetic particles. They make functional integration possible, which

begins with the material itself. Functional integration and compliance are properties

that characterise natural motion systems. Biologically inspired locomotion systems are

the subject of investigation in the first part of this work. Investigations concerning a

compliant form-fit gripper made of MAE for the handling of sensitive objects and the

description of a biologically inspired tactile sensor using ferrofluid complete the

content of the paper. From the methodological side, the paper focuses on model-based

designs instead of only know-how-based solutions. The essential prerequisite for

efficient use of smart materials is the comprehensive knowledge of the material

properties of MAEs and the theoretical and experimental description of fundamental

phenomena in their use. Based on theoretical investigations of the magnetic and

mechanical properties of these materials on the macroscale, including the description of

the magneto-mechanical behaviour by means of the finite element method, soft

robotics components are developed.

Keywords: Finite element method, Ferrofluid, Hybrid magnetic materials, Magneto active elastomer, Soft magnetic particles, Simulations.

Cite as

Related Journals

Recent Patents on Space Technology

Recent Progress in Space Technology (Discontinued)

Recent Patents on Engineering

Recent Patents on Mechanical Engineering

Current Alternative Energy

Current Biochemical Engineering (Discontinued)

Current Topics in Engineering

Current Chinese Engineering Science

Journal of Fuzzy Logic and Modeling in Engineering

Current Engineering Letters and Reviews

Related Books

6G Wireless Communications and Mobile Networking

Recent Advances in Renewable Energy

Recent Advances in Renewable Energy

Recent Advances in Renewable Energy

Recent Advances in Renewable Energy

Recent Advances in Renewable Energy

Solar Thermal Systems: Thermal Analysis and its Application

Recent Developments in Artificial Intelligence and Communication Technologies

40 YEARS OF SHS: A LUCKY STAR OF A SCIENTIFIC DISCOVERY A Presentation with Elements of a Scientific Lecture

A Review: Chill-Block Melt Spin Technique, Theories & Applications

© 2024 Bentham Science Publishers | Privacy Policy