Yuefei Wu scite author profile

Yuefei Wu

4Publications

39Citation Statements Received

12Citation Statements Given

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University of Maryland, Baltimore County

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Magnetostrictive particulate actuators: configuration, modeling and characterization

Anjanappa

1997

Smart Mater. Struct.

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Magnetostrictive particulate actuators (MPAs) that take advantage of easy embedability and remote excitation capability of magnetostrictive particles are proposed as new actuators for smart structure applications. A MPA is configured as a small rectangular polymeric beam with magnetostrictive particles dispersed uniformly. Based on the compatibility condition, a load line equation is developed that relates the free strain with the mechanical stress experienced by the magnetostrictive particles. The load line equation and the magnetoelastic property of the material are used to develop a macroscopic behavior model of a MPA. Characterization experiments are used to find the orientation factor and pre-stress. Experimental work shows that the static performance of MPAs for an applied magnetic field depends on the volume fraction, orientation field, mechanical preload, and the stiffness of the polymeric matrix. In general this actuator can be used where the structure needs to be excited with a large force and small strain over a wide frequency range. For example, embedded in a laminated composite, MPAs can be used as micropositioners, vibration dampers, platform stabilizers, and motors.

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<title>Vibration control of magnetostrictive composite beams</title>

Krishna-Murty

Anjanappa

1996

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<title>Modeling of embedded magnetostrictive particulate actuators</title>

Anjanappa

1996

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This paper deals with the modeling ofthe macroscopic behavior ofMagnetostrictive Particulate Actuators (MPA). MPA is made ofmagnetostrictive particles dispersed in a polymeric matrix. A load line equation is developed that relates the free strain with the mechanical stress experienced by the magnetostrictive particles. The load line equation combined with the material property gives the macroscopic behavior model of MPA. Numerical results to show the effect ofvolume fraction ofparticles and Young's modulus ofmatrix on the overall actuating performance are presented.

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<title>Experimental study of the macroscopic behavior of magnetostrictive particulate actuators</title>

Anjanappa

1997

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Yuefei Wu

Magnetostrictive particulate actuators: configuration, modeling and characterization

<title>Vibration control of magnetostrictive composite beams</title>

<title>Modeling of embedded magnetostrictive particulate actuators</title>

<title>Experimental study of the macroscopic behavior of magnetostrictive particulate actuators</title>

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