Donald J. Nefske scite author profile

Donald J. Nefske

5Publications

227Citation Statements Received

5Citation Statements Given

How they've been cited

598

226

How they cite others

Affiliations

Mechanics' Institute, General Motors (United States), General Motors (Poland)

Publications

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Power Flow Finite Element Analysis of Dynamic Systems: Basic Theory and Application to Beams

Nefske

Sung

1989

216

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A power flow analysis has been developed for predicting the vibration response of dynamic systems to high frequencies at which the traditional finite element method is no longer practical. As compared to Statistical Energy Analysis, which predicts an overall vibration response of each dynamic subsystem, the power flow analysis enables one to predict the spatial variation of the vibration response within each subsystem, as well as the power flow and vibration response throughout the entire system. The formulation of the power flow analysis is based on a differential, control-volume approach and is shown to result in a partial differential equation of the heat conduction type which can be solved by applying the finite element method. Example applications to (1) an uncoupled beam and (2) two coupled beams are presented to illustrate the analysis.

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Structural-acoustic finite element analysis of the automobile passenger compartment: A review of current practice

Nefske

Wolf

Howell

1982

Journal of Sound and Vibration

210

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A New CAL3D Airbag Inflation Model

Wang¹,

Nefske²

1988

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A Coupled Structural-Acoustic Finite Element Model for Vehicle Interior Noise Analysis

Sung

Nefske

1984

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An analytical method is developed for predicting vehicle interior noise and identifying noise sources. In this method, the finite element models representing the vehicle structure and its enclosed acoustic cavity are coupled mathematically. A modal formulation is employed to solve for the interior acoustic response, and an analysis is developed to identify the structural and acoustic modal participation as well as the boundary panel participation in producing the response. As an example application, a coupled model of an automotive vehicle is presented and experimentally evaluated. The modal and panel participations are identified from the results.

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Assessment of a Vehicle Concept Finite-Element Model for Predicting Structural Vibration

Sung¹,

Nefske²

2001

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Donald J. Nefske

Power Flow Finite Element Analysis of Dynamic Systems: Basic Theory and Application to Beams

Structural-acoustic finite element analysis of the automobile passenger compartment: A review of current practice

A New CAL3D Airbag Inflation Model

A Coupled Structural-Acoustic Finite Element Model for Vehicle Interior Noise Analysis

Assessment of a Vehicle Concept Finite-Element Model for Predicting Structural Vibration

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