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Keyphrases
Magnetorheological Fluid
100%
Rheology
100%
Microwires
100%
Magnetic Properties
33%
Magnetic Field
22%
Viscosity
22%
Yield Stress
22%
Magnetorheological
22%
Relative Yield Stress
22%
Aspect Ratio
11%
Result Dissemination
11%
Magneto-optical Devices
11%
Particle Shape
11%
Particle Composition
11%
Materials Research
11%
Increased Yield
11%
Particle Concentration
11%
Undergraduate Researchers
11%
Micron-sized
11%
Carrier Fluid
11%
Microwave Devices
11%
Sedimentation Properties
11%
Viscoelastic Properties
11%
Viscous Liquid
11%
Ferromagnetic Particles
11%
Composite Materials
11%
Fluid Composition
11%
Industrial Sector
11%
External Magnetic Field
11%
Shear Stress
11%
Response Time
11%
Magnetic Field Strength
11%
University of Maryland
11%
Particle Sedimentation
11%
Silicone Oil
11%
Rheological Properties
11%
Undergraduate Students
11%
Volume Fraction
11%
Constitutive Model
11%
Penn State
11%
Volume Percent
11%
Significant Experiences
11%
Cylindrical Particles
11%
High School Students
11%
Simulation Package
11%
Particle Geometry
11%
Shear Rate
11%
Template-assisted Electrodeposition
11%
Redispersion
11%
Magnetic Particles
11%
Professional Development
11%
Synthesis, Characterization
11%
Material Science
Rheology
100%
Magnetorheological Fluid
100%
Yield Stress
44%
Magnetic Property
33%
Silicone Oil
11%
Volume Fraction
11%
Electrodeposition
11%
Composite Material
11%
Finite Element Method
11%
Particle Geometry
11%
Magnetic Particle
11%
Particle Shape
11%
Research Material
11%
Earth and Planetary Sciences
Rheology
100%
Magnetorheological Fluid
100%
Yield Point
44%
Magnetic Property
33%
Composite Material
11%
Maryland
11%
Semisolid
11%
Field Strength
11%
Fluid Composition
11%
Electrodeposition
11%