Modeling and Measuring the Shielding Effectiveness of Carbon Fiber Composites

Angulo, Luis D.; Francisco, Patricia Gomez de; Gallardo, Borja Plaza; Martínez, David Poyatos; Cabello, Miguel Ruiz; Escot-Bocanegra, David; Garcia, S.G.

doi:10.1109/jmmct.2019.2949592

Cited by 10 publications

(11 citation statements)

References 12 publications

(19 reference statements)

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“…In contrast to metals, shielding theory for carbon-fibre-reinforced materials remains largely undeveloped and most of the interpretations are still made with reference to the White model, bringing a degree of uncertainty due to significant disparity in the assumptions. Most of the existing theoretical work attempting to describe the shielding abilities of carbon-fibre composites is restricted to the plane wave shielding of periodic structures composed of multiple unidirectional (UD) plies at varying orientations [113][114][115][116][117][118][119][120][121]. The filamentary and stock-piled geometry of such structures gives rise to complicated resonant phenomena emerging from continuous reflections at different fibre locations [113].…”

Section: Emi Shielding In Anisotropic Carbonfibre Composite Materialsmentioning

confidence: 99%

“…The filamentary and stock-piled geometry of such structures gives rise to complicated resonant phenomena emerging from continuous reflections at different fibre locations [113]. The problem is intrinsically multiscalar and not yet resolved, even with the help of advanced computational methods and simulations [116]. At high frequencies, where the wavelength is comparable to the fibre spacing, microstructure-wave interactions are of particular importance, as they give rise to intra-ply resonance phenomena in multi-layered composites [113].…”

Section: Emi Shielding In Anisotropic Carbonfibre Composite Materialsmentioning

confidence: 99%

“…In addition, if the fibres are closely packed, there exists a proximity effect between currents induced in the fibres, which dominates at high frequencies. These phenomena require detailed knowledge of the specific parameters of the microstructure, such as fibre diameter and are not represented by any existing analytical model [116]. These factors, combined with the small fibre dimensions, mean that any numerical analysis at the fibre scale is extremely computationally intensive.…”

Section: Emi Shielding In Anisotropic Carbonfibre Composite Materialsmentioning

confidence: 99%

See 2 more Smart Citations

Recent advances in electromagnetic interference shielding properties of carbon-fibre-reinforced polymer composites—a topical review

Mikinka

Siwak

2021

J Mater Sci: Mater Electron

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Using carbon-fibre-reinforced polymer (CFRP) composites for electromagnetic interference (EMI) shielding has become a rapidly emerging field. This state-of-the-art review summarises all the recent research advancements in the field of electromagnetic shielding properties of CFRP composites, with exclusive attention paid to experimental work. It focuses on (1) important mechanisms and physical phenomena in the shielding process for anisotropic carbon-fibre composites and (2) shielding performance of CFRP materials as reported in the literature, with important performance-affecting parameters. The key properties which directly influence the shielding performance are identified, the most critical being the carbon-fibre concentration along with length for discontinuous carbon-fibre-filled polymers and the lay-up for continuous carbon-fibre-reinforced composites. The effect of adding conductive inclusions such as metal or carbon nanotubes is also reviewed. It is emphasised that processing conditions are strongly linked with the shielding properties of a composite. This is a first review, which covers all the recent advancements in the field of shielding properties of carbon-fibre-reinforced composites, with detailed analysis of factors influencing these properties and clear distinction between continuous and discontinuous reinforcement. It is shown that CFRP composites make a good candidate as an EMI shielding enclosure material.

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Section: Emi Shielding In Anisotropic Carbonfibre Composite Materialsmentioning

confidence: 99%

Section: Emi Shielding In Anisotropic Carbonfibre Composite Materialsmentioning

confidence: 99%

Section: Emi Shielding In Anisotropic Carbonfibre Composite Materialsmentioning

confidence: 99%

See 1 more Smart Citation

Recent advances in electromagnetic interference shielding properties of carbon-fibre-reinforced polymer composites—a topical review

Mikinka

Siwak

2021

J Mater Sci: Mater Electron

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“…Just as the studies on the electromagnetic characterization of materials [ 8 , 9 , 10 , 11 ] and, in particular, on the electrical conductivity of CFC composites [ 12 , 13 , 14 , 15 , 16 ] have been multiplied, knowledge on the electromagnetic performance of the union of parts made of CFC structures is not as far developed compared to parts made of metal [ 17 ]. The study of these joints is fundamental because electrical discontinuities or preferential paths can produce changes in the aircraft electromagnetic behavior.…”

Section: Introductionmentioning

confidence: 99%

Characterization of Joints between Carbon Fiber Composite Parts Using a Microstrip Transmission Line Method

Plaza

López

Poyatos

2021

Sensors

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The electromagnetic performance of aerial platforms, which are composed mostly of nonmetallic materials, is a subject of great interest at present time. The behavior of this type of composite structure against electromagnetic environmental effects (E3), such as lightning, is not well-studied as in the case of metalic structures. The purpose of this article is to characterize the joints present in aerial platforms constructed mainly of nonmetallic composite materials. The study of these joints is fundamental because electrical discontinuities or preferential routes can produce changes in the electromagnetic behavior of an aircraft. The proposed measurement system for the characterization of these joints is a microstrip line. The flexibility of the test setup allows for evaluation of different joints in carbon fiber composite (CFC) samples with a different number of plies. Additionally, approximated models of the behavior of the joints as well as the detection of possible defects in the joining process are reported.

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“…Techniques combining analytical, numerical and/or experimental work can also provide estimations of composites EM response. For instance, in [12] measured parameters are implemented into an analytical formula to calculate the transmission coefficient of stratified carbon fiber composites. Experimental investigations can also be conducted separately to obtain estimates of transmission coefficients.…”

Section: Introductionmentioning

confidence: 99%

Homogenization of woven composites for shielding applications: the case of oblique incidence

Achkar

Pichon

Daniel

2021

Journal of Electromagnetic Waves and Applications

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When reinforced with conductive fibers, woven composites can exhibit interesting shielding properties. This paper focuses on their response for obliquely incident plane waves in the high-frequency range (500 MHz to 40 GHz). A two-step homogenization technique is carried out. First, the composite response (shielding effectiveness and reflection coefficient) is computed using a 3D finite element simulation, then the effective properties are estimated by implementing an optimization process to solve the inverse problem. Results show that composites effective properties are independent of the angle of incidence and wave configuration. This suggests that oblique incidence scenarios can be studied by homogenizing the material based on the case of normal incidence.

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Modeling and Measuring the Shielding Effectiveness of Carbon Fiber Composites

Cited by 10 publications

References 12 publications

Recent advances in electromagnetic interference shielding properties of carbon-fibre-reinforced polymer composites—a topical review

Recent advances in electromagnetic interference shielding properties of carbon-fibre-reinforced polymer composites—a topical review

Characterization of Joints between Carbon Fiber Composite Parts Using a Microstrip Transmission Line Method

Homogenization of woven composites for shielding applications: the case of oblique incidence

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