A Fast Iterative Finite Element Model for Electrodynamic and Magnetostrictive Vibration Absorbers

S. Mandayam; L. Udpa; S. S. Udpa; Y. S. Sun

doi:10.1109/20.312643

A Fast Iterative Finite Element Model for Electrodynamic and Magnetostrictive Vibration Absorbers

S. Mandayam, L. Udpa, S. S. Udpa, Y. S. Sun

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

model for simulating electrodynamic and magnetostrictive vibration absorber systems. The model employs a decoupled formulation to compute motion induced voltages in a magnetomechanical coupled system. The model is first validated by comparison with experimental measurements. An application of the model for optimization of the system damping performance using model predictions, is presented. The model is also used to calculate the frequency response of a magnetostrictive actuator. This paper presents a finite element.

Original language	English (US)
Pages (from-to)	3300-3303
Number of pages	4
Journal	IEEE Transactions on Magnetics
Volume	30
Issue number	5
DOIs	https://doi.org/10.1109/20.312643
State	Published - Sep 1994
Externally published	Yes

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Electrical and Electronic Engineering

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10.1109/20.312643

Cite this

@article{7d171c50d12f4f76a5a6c970f51193b3,

title = "A Fast Iterative Finite Element Model for Electrodynamic and Magnetostrictive Vibration Absorbers",

abstract = "model for simulating electrodynamic and magnetostrictive vibration absorber systems. The model employs a decoupled formulation to compute motion induced voltages in a magnetomechanical coupled system. The model is first validated by comparison with experimental measurements. An application of the model for optimization of the system damping performance using model predictions, is presented. The model is also used to calculate the frequency response of a magnetostrictive actuator. This paper presents a finite element.",

author = "S. Mandayam and L. Udpa and Udpa, {S. S.} and Sun, {Y. S.}",

note = "Funding Information: Manuscript received November 1,1993. This work is a collaborative effort with Dr. A. Flatau, T. Hansen and D. Hall, Aerospace Engineering and Engineering Iowa State University, and was supported by the Carver Grant, 1992, at ISU.",

year = "1994",

month = sep,

doi = "10.1109/20.312643",

language = "English (US)",

volume = "30",

pages = "3300--3303",

journal = "IEEE Transactions on Magnetics",

issn = "0018-9464",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

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T1 - A Fast Iterative Finite Element Model for Electrodynamic and Magnetostrictive Vibration Absorbers

AU - Mandayam, S.

AU - Udpa, L.

AU - Udpa, S. S.

AU - Sun, Y. S.

N1 - Funding Information: Manuscript received November 1,1993. This work is a collaborative effort with Dr. A. Flatau, T. Hansen and D. Hall, Aerospace Engineering and Engineering Iowa State University, and was supported by the Carver Grant, 1992, at ISU.

PY - 1994/9

Y1 - 1994/9

N2 - model for simulating electrodynamic and magnetostrictive vibration absorber systems. The model employs a decoupled formulation to compute motion induced voltages in a magnetomechanical coupled system. The model is first validated by comparison with experimental measurements. An application of the model for optimization of the system damping performance using model predictions, is presented. The model is also used to calculate the frequency response of a magnetostrictive actuator. This paper presents a finite element.

AB - model for simulating electrodynamic and magnetostrictive vibration absorber systems. The model employs a decoupled formulation to compute motion induced voltages in a magnetomechanical coupled system. The model is first validated by comparison with experimental measurements. An application of the model for optimization of the system damping performance using model predictions, is presented. The model is also used to calculate the frequency response of a magnetostrictive actuator. This paper presents a finite element.

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A Fast Iterative Finite Element Model for Electrodynamic and Magnetostrictive Vibration Absorbers

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A Fast Iterative Finite Element Model for Electrodynamic and Magnetostrictive Vibration Absorbers

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