de Vicente | Magnetic Soft Matter | Buch | 978-1-83916-227-5 | sack.de

Buch, Englisch, Band 18, 468 Seiten, Format (B × H): 157 mm x 236 mm, Gewicht: 862 g

Reihe: Soft Matter Series

de Vicente

Magnetic Soft Matter


Fundamentals and Applications

Buch, Englisch, Band 18, 468 Seiten, Format (B × H): 157 mm x 236 mm, Gewicht: 862 g

Reihe: Soft Matter Series

ISBN: 978-1-83916-227-5
Verlag: RSC Publishing

Magnetically responsive soft matter is a colloidal model system where interparticle interactions can be tuned through external magnetic fields. Covering the most recent literature in the field, with special emphasis on the physical mechanisms behind their rheological behaviour, this book aims to demonstrate the controllability of soft matter through an external (magnetic) stimulus.

With chapters written by leading experts, fundamental topics are complemented by cutting edge research, in particular, discussions on advances in sedimentation stability, structural characterization using microCT, surface functionalization, bidisperse composites, self-assembly at interfaces and collective dynamics, friction and shear-thickening, dynamics, self-assembly and rheology under unsteady triaxial magnetic fields, theoretical developments and particle level numerical simulations, including contact forces and biomedical and tissue engineering applications.

This complete perspective of the field attempts to bridge the gap between fundamentals and applications and is an excellent addition to any soft matter scientist’s library.
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Autoren/Hrsg.

De Vicente, Juan

Fachgebiete

Weitere Infos & Material

Introduction to Magnetorheological Fluids;Advances on the Sedimentation Stability of Magnetorheological Fluids;Progress in Surface Functionalized Particle-based Magnetorheological Composites;Mechanical Properties of Soft Composites Fabricated From Two Different Magnetorheological Materials;Using Triaxial Magnetic Fields to Create Optimal Particle Composites, Fluid Vorticity, Advection Lattices, Vortex Lattices, and Biomimetic Dynamics;Dynamics of Ferromagnetic Colloids at Liquid Interfaces Under Unsteady Magnetic Fields in 2D;Collective Colloidal Transport Across Periodic Magnetic Landscapes;On the Use of X-Ray Microtomography to Investigate the Field-driven Structure and Rheology in Magnetorheological Elastomers;Influence of Friction on Magnetorheological Effect;On the Use of Unsteady Magnetic Fields in Magnetorheology;Rheological Properties of Bimodal Magnetic Suspensions;Discontinuous Shear Thickening with Suspensions of Magnetic Particles;Magnetic Soft Matter in a Rotating Field;Particle Level Simulations in Magnetorheological Suspensions;Application of Magnetic Colloids in Hydrogels for Tissue Engineering

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