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Magneto-Rheological Materials and their Applications. Materials, Circuits and Devices - Product Image

Magneto-Rheological Materials and their Applications. Materials, Circuits and Devices

  • ID: 4756146
  • Book
  • IET Books
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The rheological properties of magneto-rheological (MR) materials, such as their viscosity and dynamic modulus, can be tuned or controlled by changing the intensity of the magnetic field using appropriate control schemes. Thanks to their robustness, performance and smart properties, numerous studies have been undertaken on the development of new MR materials, and microscopic and macroscopic modelling approaches. Novel applications include engine mounts and clutch systems in the automotive industry, shock absorbing safety devices for cockpit seats in aerospace, and shock absorption from movement in semi-active human prosthetic legs.

This book introduces magneto-rheological fluids and elastomers, and explores their material properties, related modelling techniques and applications in turn. The book offers insights into the relationships between the properties and characterisation of MR materials and their current and future applications, making it useful reading for researchers, engineers and graduate students who work in the field of smart materials and structures.

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- Chapter 1: Redispersibility and its relevance in the formulation of magnetorheological fluids
- Chapter 2: DEM and FEM Simulations in Magnetorheology: Aggregation Kinetics and Yield Stress
- Chapter 3: A New Novel of Composite Adaptive Optimal Control for MR Damper System Subjected to Mixed Disturbances
- Chapter 4: Developments in Modeling of Magnetorheological Actuators
- Chapter 5: Use of magnetorheological shock absorber for impact loading mitigation with individually controllable coils
- Chapter 6: Influence of magnetorheological stabilizer bar on vehicular roll stability
- Chapter 7: Hybrid Active and Semi-Active Seat Suspension
- Chapter 8: Development of Magnetorheological Brake with magnetic coils placed on side housings
- Chapter 9: Enhanced Magnetic-sensing Characteristics for Application of Magnetorheological Elastomer
- Chapter 10: Multi-scale modeling on tensile modulus of magneto-rheological elastomers
- Chapter 11: Experimental Study and Mathematical Model on Different Magnetorheological Elastomers
- Chapter 12: Promising Application of Magnetorheological Elastomer
- Chapter 13: Development of a hybrid nonlinear vibration absorber working with MR elastomers
- Chapter 14: Development of smart base isolation system for civil structures utilizing magnetorheological elastomer
- Chapter 15: The Designation and Mechanical Properties of Magnetorheological Plastomer
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Seung-Bok Choi Fellow Professor.
Inha University, South Korea.

Seung-Bok Choi is a distinguished fellow professor of mechanical engineering at Inha University, Korea. His research interests are control applications using smart materials such as electro-rheological (ER) fluids, magneto-rheological (MR) fluids, piezoelectric materials and shape memory alloys. He has published more than 520 refereed international journal papers and two books on smart materials and their applications.

Weihua Li Professor.
University of Wollongong, Australia.

Weihua Li is widely recognised as an outstanding researcher and leader in magnetorheological (MR) materials and their engineering applications. He has made substantial contributions to MR materials fabrication and characterisation, rheology, modelling, and innovative engineering applications. Professor Li has published more than 200 journal papers. He is a senior professor and directs the Advanced Manufacturing Research Strength at the University of Wollongong.

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