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Ingeniería
Print version ISSN 0121-750X
Abstract
GRANADOS, Camilo Alejandro; ROJAS, Herbert Enrique and SANTAMARIA, Francisco. Evaluation of the Electromagnetic Shielding of Concrete from High-Frequency Simulations and the Application of the Jonscher Model. ing. [online]. 2020, vol.25, n.2, pp.162-178. ISSN 0121-750X. https://doi.org/10.14483/23448393.15611.
Context:
This paper analyzes the effectiveness of electromagnetic shielding of several concrete structures based on the variation of the thickness and the content or level of humidity (NH) for a defined frequency range.
Method:
The study is based on the implementation of simulations in two dimensions (2D) using a software based on the finite element method (FEM) and it was developed from a set of values obtained from the application of mathematical models for dielectric media. Initially, the complex electrical properties of the structures (dielectric permittivity and conductivity) are characterized by applying the Jonscher’s mathematical model of three variables. Subsequently, these properties are evaluated with different concrete structures for a specific frequency range.
Results:
It is observed that the electromagnetic shielding offered by the concrete increases when the NH and the thickness of the structures are increased. Additionally, the evidences show that energy losses due to absorption are greater compared to the other types of losses analyzed in the study.
Conclusions:
After the investigation, it can be affirmed that the Jonscher electromagnetic model offers a good response when it is applied to the complex electrical properties of concrete in a frequency range from 250 MHz up to 700 MHz. Also, by varying the thickness and the humidity level in the structures analyzed, an increase in the effectiveness of the total electromagnetic shielding was evidenced. Because concrete is an imperfect dielectric medium, energy losses by reflection are low compared to absorption losses and losses due to multiple reflections. However, this structural material can be used as a natural shield against radiated electromagnetic disturbances in the UHF band.
Keywords : electromagnetic shielding; complex electrical properties; concrete; Jonscher electromagnetic model.