Analysis of the shielding properties of metalised nonwoven materials

A.N. Austin; J.F. Dawson; I.D. Flintoft; A.C. Marvin

Analysis of the shielding properties of metalised nonwoven materials

A.N. Austin, J.F. Dawson, I.D. Flintoft, A.C. Marvin

Electronic Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

This paper considers the shielding effectiveness of nonwoven materials in the 1-8.5 GHz range using parametric semi-empirical models and experimental techniques. A range of materials based on metalised carbon fibres are considered with weights between 10 and 75 g/m2, thicknesses between 50 and 400μm, and measured shielding effectiveness between 35 and 100dB. A numerical model is presented and compared to experimental results.

Original language	English
Title of host publication	Electromagnetic Compatibility (EMC EUROPE), 2013 International Symposium on
Pages	526-531
Number of pages	6
Publication status	Published - 2013

Keywords

magnetic shielding
metallisation
parametric devices
woven composites
metalised carbon fibres
metalised nonwoven materials
numerical model
parametric semiempirical models
shielding effectiveness
shielding property
Analytical models
Apertures
Carbon
Electromagnetic compatibility
Fabrics
Numerical models
TLM modelling
absorber box
aperture
carbon
electric field
electrochemical
electroplating
fibre
high reflectivity
metallised nonwovens
pore
screening
shielding

1 Finished
1 Active

Electromagnetic shielding properties of Materials, and Enclosures
Dawson, J. F. (Principal investigator), Marvin, A. (Principal investigator), Flintoft, I. D. (Principal investigator), Dawson, L. (Principal investigator), Porter, S. J. (Principal investigator), Robinson, M. P. (Principal investigator) & Yan, J. (Student)
1/01/90 → …
Project: Other project › Miscellaneous project
Electromagnetic properties of non-woven materials
Dawson, J. F. (Principal investigator), Marvin, A. (Co-investigator) & Austin, A. N. (Student)
1/10/10 → 30/04/17
Project: Other project › Miscellaneous project

Cite this

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title = "Analysis of the shielding properties of metalised nonwoven materials",

abstract = "This paper considers the shielding effectiveness of nonwoven materials in the 1-8.5 GHz range using parametric semi-empirical models and experimental techniques. A range of materials based on metalised carbon fibres are considered with weights between 10 and 75 g/m2, thicknesses between 50 and 400μm, and measured shielding effectiveness between 35 and 100dB. A numerical model is presented and compared to experimental results.",

keywords = "magnetic shielding, metallisation, parametric devices, woven composites, metalised carbon fibres, metalised nonwoven materials, numerical model, parametric semiempirical models, shielding effectiveness, shielding property, Analytical models, Apertures, Carbon, Electromagnetic compatibility, Fabrics, Numerical models, TLM modelling, absorber box, aperture, carbon, electric field, electrochemical, electroplating, fibre, high reflectivity, metallised nonwovens, pore, screening, shielding",

author = "A.N. Austin and J.F. Dawson and I.D. Flintoft and A.C. Marvin",

year = "2013",

language = "English",

pages = "526--531",

booktitle = "Electromagnetic Compatibility (EMC EUROPE), 2013 International Symposium on",

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TY - GEN

T1 - Analysis of the shielding properties of metalised nonwoven materials

AU - Austin, A.N.

AU - Dawson, J.F.

AU - Flintoft, I.D.

AU - Marvin, A.C.

PY - 2013

Y1 - 2013

N2 - This paper considers the shielding effectiveness of nonwoven materials in the 1-8.5 GHz range using parametric semi-empirical models and experimental techniques. A range of materials based on metalised carbon fibres are considered with weights between 10 and 75 g/m2, thicknesses between 50 and 400μm, and measured shielding effectiveness between 35 and 100dB. A numerical model is presented and compared to experimental results.

AB - This paper considers the shielding effectiveness of nonwoven materials in the 1-8.5 GHz range using parametric semi-empirical models and experimental techniques. A range of materials based on metalised carbon fibres are considered with weights between 10 and 75 g/m2, thicknesses between 50 and 400μm, and measured shielding effectiveness between 35 and 100dB. A numerical model is presented and compared to experimental results.

KW - magnetic shielding

KW - metallisation

KW - parametric devices

KW - woven composites

KW - metalised carbon fibres

KW - metalised nonwoven materials

KW - numerical model

KW - parametric semiempirical models

KW - shielding effectiveness

KW - shielding property

KW - Analytical models

KW - Apertures

KW - Carbon

KW - Electromagnetic compatibility

KW - Fabrics

KW - Numerical models

KW - TLM modelling

KW - absorber box

KW - aperture

KW - carbon

KW - electric field

KW - electrochemical

KW - electroplating

KW - fibre

KW - high reflectivity

KW - metallised nonwovens

KW - pore

KW - screening

KW - shielding

M3 - Conference contribution

SP - 526

EP - 531

BT - Electromagnetic Compatibility (EMC EUROPE), 2013 International Symposium on

ER -

Analysis of the shielding properties of metalised nonwoven materials

Abstract

Keywords

Projects

Electromagnetic shielding properties of Materials, and Enclosures

Electromagnetic properties of non-woven materials

Cite this