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A 3D anisotropic flow resistivity measurement method for fibrous wool materials
KTH, School of Engineering Sciences (SCI), Aeronautical and Vehicle Engineering, Marcus Wallenberg Laboratory MWL.ORCID iD: 0000-0003-1855-5437
KTH, School of Engineering Sciences (SCI), Aeronautical and Vehicle Engineering, Marcus Wallenberg Laboratory MWL.
KTH, School of Engineering Sciences (SCI), Aeronautical and Vehicle Engineering, Marcus Wallenberg Laboratory MWL.
2008 (English)Report (Other academic)
Place, publisher, year, edition, pages
2008.
Keyword [en]
Porous material; flow resistivity; anisotropic; Darcy's law; 3D measurement; non-destructive testing; inverse estimation
National Category
Engineering and Technology
Identifiers
URN: urn:nbn:se:kth:diva-8569OAI: oai:DiVA.org:kth-8569DiVA: diva2:13927
Note

QC 20100729

Available from: 2008-06-02 Created: 2008-06-02 Last updated: 2016-05-16Bibliographically approved
In thesis
1. Elastic and acoustic characterisation of anisotropic porous materials
Open this publication in new window or tab >>Elastic and acoustic characterisation of anisotropic porous materials
2008 (English)Doctoral thesis, comprehensive summary (Other scientific)
Abstract [en]

For an accurate prediction of the low and medium frequency surface vibration and sound radiation behaviour of porous materials, there is a need to improve the means of estimating their elastic and acoustic properties. The underlying reasons for this are many and of varying origin, one prominent being a poor knowledge of the geometric anisotropy of the cell microstructure in the manufactured porous materials. Another one being, the characteristic feature of such materials i.e. that their density, elasticity and dissipative properties are highly dependent upon the manufacturing process techniques and settings used. In the case of free form moulding, the geometry of the cells and the dimensions of the struts are influenced by the rise and injection flow directions and also by the effect of gravity, elongating the cells. In addition the influence of the boundaries of the mould also introduces variations in the properties of the foam block produced.

Despite these complications, the need to predict and, in the end, optimise the acoustic performance of these materials, either as isolated components or as part of a multi-layer arrangement, is growing. It is driven by the increasing demands for an acoustic performance in balance with the costs, a focus which serves to increase the need for modelling their behaviour in general and the above mentioned, inherent, anisotropy in particular.

The current work is focussing on the experimental part of the characterisation of the material properties which is needed in order to correctly represent the anisotropy in numerical simulation models.

Then an hybrid approach based on a combination of experimental deformation, strain field mapping, flow resistivity measurement and physically based porous material acoustic Finite Element (FE) simulation modelling is described. This inverse estimation linked with high quality measurements is crucial for the determination of the anisotropic coefficients of the porous materials is illustrated here for soft foam and fibrous wool materials.

Place, publisher, year, edition, pages
Stockholm: KTH, 2008. 19 p.
Series
Trita-AVE, ISSN 1651-7660 ; 2008-25
National Category
Fluid Mechanics and Acoustics
Identifiers
urn:nbn:se:kth:diva-4782 (URN)978-91-7178-995-2 (ISBN)
Public defence
2008-06-11, F3, Lindstedtsvägen 26, Stockholm, 09:00
Opponent
Supervisors
Note
QC 20100729Available from: 2008-06-02 Created: 2008-06-02 Last updated: 2010-07-29Bibliographically approved

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Göransson, Peter

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