Subgridding Boundary Conditions to Model Arbitrarily Dispersive Thin Planar Materials

Cabello, Miguel Ruiz; Angulo, Luis D.; Alvarez, Jesus; Bretones, A.R.; Garcia, S.G.

doi:10.1109/tap.2018.2862241

Cited by 3 publications

(1 citation statement)

References 26 publications

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“…On top of this, they pose an intrinsically multi-scalar problem when they must be incorporated into simulations which involve an entire system. Such problem is not yet fully solved for anisotropic thin layers, but some steps have been made in that direction [3], [4].…”

Section: Introductionmentioning

confidence: 99%

Modeling and Measuring the Shielding Effectiveness of Carbon Fiber Composites

Angulo

Francisco

Gallardo

et al. 2019

IEEE J. Multiscale Multiphys. Comput. Tech.

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We provide a model able to predict the shielding effectiveness (SE) of carbon fiber composite (CFC) panels made of stacked layers of conducting fibers. This model permits us to obtain simple formulas in which the only parameters needed are the sheet square resistance and the effective panel thickness. These tools let us to predict a minimum SE, which always increases with the frequency and therefore constituting the worst case, from an electromagnetic shielding perspective. Consequently, the measurement of minimum SE requirements can be simply measured with a micro-ohmmeter using an specific experimental setup which is also described here. Additionally, this method allows to measure very high SE falling far beyond the dynamic range of the values measurable with the most commonly used standard, the ASTM D4935. After describing the modeling technique and the different test setups used, a cross-validation between theoretical and experimental results is made for four different samples of CFC; two designed to test the modeling assumptions and two which are representative of the ones nowadays used in a real aircraft.

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Section: Introductionmentioning

confidence: 99%

Modeling and Measuring the Shielding Effectiveness of Carbon Fiber Composites

Angulo

Francisco

Gallardo

et al. 2019

IEEE J. Multiscale Multiphys. Comput. Tech.

Self Cite

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FDTD-based Shielding Effectiveness Prediction of Enclosures Made of Composite Materials

Zhong

Feng

Yan

et al. 2020

2020 IEEE MTT-S International Conference on Numerical Electromagnetic and Multiphysics Modeling and Optimization (NEMO)

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Comments on “A New Conformal FDTD for Lossy Thin Panels”

Cabello

Garcia

Angulo

et al. 2020

IEEE Trans. Antennas Propagat.

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In the paper "A new conformal FDTD for lossy thin panels" by M. R. Cabello et al., the appearance of spiky antiresonances in the simulation of the shielding properties of lossy thin-shell spherical cavities by FDTD, was categorised as spurious solutions. In this document, we briefly clarify this topic, and show that these solutions are not really spurious in the common interpretation of the term. Actually, they correspond to physical solutions, appearing due to lack of symmetry inherent to the staggered co-location nature of field components in FDTD.

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Subgridding Boundary Conditions to Model Arbitrarily Dispersive Thin Planar Materials

Cited by 3 publications

References 26 publications

Modeling and Measuring the Shielding Effectiveness of Carbon Fiber Composites

Modeling and Measuring the Shielding Effectiveness of Carbon Fiber Composites

FDTD-based Shielding Effectiveness Prediction of Enclosures Made of Composite Materials

Comments on “A New Conformal FDTD for Lossy Thin Panels”

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