Ulf Orrenius scite author profile

Insufficient knowledge of how the working environment (WE) impacts company performance leads to a poor basis for managerial decision making. The objective of this study was to survey and evaluate available tools relating WE to business results. Nine tools were identified and qualitatively evaluated using 11 criteria. The tools were clustered into three categories, ranging from analysis of WE risks as well as calculation of their economic impact to solely investment analysis. Shortcomings in the tools include insufficient attention to quality and productivity issues and insufficient guidance for users. Although further methodological development is indicated, researchers should also attend to the factors affecting tool uptake and application as well as the potential to integrate such analysis into companies' regular accounting systems. © 2011 Wiley Periodicals, Inc.

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Calculation of Wave Propagation in Rib-Stiffened Plate Structures

Orrenius

Finnveden

1996

Journal of Sound and Vibration

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An equivalent material formulation for sinusoidal corrugated cores of structural sandwich panels

Bartolozzi¹,

Pierini²,

Orrenius³

et al. 2013

Composite Structures

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Wave modelling in predictive vibro-acoustics: Applications to rail vehicles and aircraft

et al. 2014

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Predicting the Sound Transmission Loss of Honeycomb Panels using the Wave Propagation Approach

Ramanathan¹,

Feng²,

Orrenius³

2011

Acta Acustica united with Acustica

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The sound transmission properties of sandwich panels can be predicted with sufficient degree of accuracy by calculating the wave propagation properties of the structure. This method works well for sandwich panels with isotropic cores but applications to panels with anisotropic cores are hard to find. Honeycomb is an example of anisotropic material which when used as a core, results in a sandwich panel with anisotropic properties. In this paper, honeycomb panels are treated as being orthotropic and the wavenumbers are calculated for the two principle directions. These calculated wavenumbers are validated with the measured wavenumbers estimated from the resonance frequencies of freely hanging honeycomb beams. A combination of wave propagation and standard orthotropic plate theory is used to predict the sound transmission loss of honeycomb panels. These predictions are validated through sound transmission measurements. Passive damping treatment is a common way to reduce structural vibration and sound radiation, but they often have little effect on sound transmission. Visco-elastic damping with a constraining layer is applied to two honeycomb panels with standard and enhanced fluid coupling properties. This enhanced fluid coupling in one of the test panels is due to an extended coincidence range observed from the dispersion curves. The influence of damping treatments on the sound transmission loss of these panels is investigated. Results show that, after the damping treatment, the sound transmission loss of an acoustically bad panel and a normal panel are very similar.

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Ulf Orrenius

Work Environment and the Bottom Line: Survey of Tools Relating Work Environment to Business Results

Calculation of Wave Propagation in Rib-Stiffened Plate Structures

An equivalent material formulation for sinusoidal corrugated cores of structural sandwich panels

Wave modelling in predictive vibro-acoustics: Applications to rail vehicles and aircraft

Predicting the Sound Transmission Loss of Honeycomb Panels using the Wave Propagation Approach

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