Simulation of Dielectric Properties of Nanocomposites with Non-Uniform Filler Distribution

Ciobanu, Romeo Cristian; Damian, Radu; Schreiner, Cristina; Aradoaei, Mihaela; Raichur, Ashok M.

doi:10.3390/polym15071636

Cited by 2 publications

(2 citation statements)

References 21 publications

(27 reference statements)

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“…This aspect is explained by the internal architecture of the composite, i.e., the balance between the powder content and powder dimension, which is also correlated to the high increase in the conductivity at the GHz domain, even if the polarization effect is diminished. The study of such effects at the micro-scale and correlation with composition and architecture may be further studied as described in [60].…”

Section: Comparative Dielectric Testsmentioning

confidence: 99%

“…The development of broadband shielding composites for the microwave domain is a very new direction of research, and up to now only pure ceramic composites were studied, e.g., FeNi 3 /NiZnFe 2 O 4 /ZnO composite in [61], with clear drawbacks related to synthesis and final shaping technology, so ferrite-rubber composites, would be a good candidate for such applications, as our study emphasizes. Based on the theory from [60], a simulation is briefly presented in Figure 13-power loss density (proportional with SE A ) in inhomogeneous composites with ferrites, here for sample S2, at 0.1 GHz and 3 GHz, respectively. The higher intensity of color for the 3 GHz diagram and activity of insertions can be noticed, along with the clear increase in absorbed power in Wm −3 compared to the diagram for 0.1 GHz.…”

Section: Comparative Dielectric Testsmentioning

confidence: 99%

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Flexible Electromagnetic Shielding Nano-Composites Based on Silicon and NiFe2O4 Powders

Caramitu¹,

Ciobanu

Ion³

et al. 2023

Polymers

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In this paper, the obtaining and characterization of five experimental models of novel polymer composite materials with ferrite nano-powder are presented. The composites were obtained by mechanically mixing two components and pressing the obtained mixture on a hot plate press. The ferrite powders were obtained by an innovative economic co-precipitation route. The characterization of these composites consisted of physical and thermal properties: hydrostatic density, scanning electron microscopy (SEM), and TG DSC thermal analyses, along with functional electromagnetic tests in order to demonstrate the functionality of these materials as electromagnetic shields (magnetic permeability, dielectric characteristics, and shielding effectiveness). The purpose of this work was to obtain a flexible composite material, applicable to any type of architecture for the electrical and automotive industry, necessary for protection against electromagnetic interference. The results demonstrated the efficiency of such materials at lower frequencies, but also in the microwave domain, with higher thermal stability and lifetime.

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Section: Comparative Dielectric Testsmentioning

confidence: 99%

Section: Comparative Dielectric Testsmentioning

confidence: 99%

Flexible Electromagnetic Shielding Nano-Composites Based on Silicon and NiFe2O4 Powders

Caramitu¹,

Ciobanu

Ion³

et al. 2023

Polymers

Self Cite

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Caracterización de líquidos en la región de microondas usando sensor de permitividad dieléctrica

Zapata Ochoa,

García,

Machuca

2023

inycomp

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Se propone y analiza numéricamente un sensor para la caracterización de la permitividad dieléctrica de substancias en la región de las microondas. Para ello, se emplea una antena basada en un anillo resonador rectangular, en un sustrato TMM® 13i. Este es un compuesto cerámico de polímero dieléctrico termoestable con un factor de disipación de 0,0019 a 10 GHz, el cual nos permite obtener un dispositivo altamente resonante a la frecuencia de 2.4 GHz y 5 GHz. Se emplea el método anillo resonador con un capilar de vidrio pyrex en el centro para interrogar las características eléctricas de este sensor tales como la permitividad, permeabilidad y conductividad. Los resultados obtenidos revelan que el sensor propuesto presenta una sensibilidad de desplazamiento en la frecuencia fundamental, cuando este es empleado en la caracterización de muestras cuya permitividad está dentro del rango 1, a 32.5. Adicionalmente este presenta un tamaño compacto, pues solo mide 42 mm x 46 mm. Además, fueron indagados de manera simulada algunos metales pesados que se pueden encontrar en el medio ambiente. Los resultados obtenidos nos permiten evidenciar que el sensor propuesto resulta ser una alternativa interesante debido a que su fabricación es simple y económica. También, este puede ser fácilmente integrado en redes de sensado inalámbrico, las cuales son de amplio interés a nivel industrial ya que puede ser fácilmente integrado con tecnologías emergentes como internet de las cosas.

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Simulation of Dielectric Properties of Nanocomposites with Non-Uniform Filler Distribution

Cited by 2 publications

References 21 publications

Flexible Electromagnetic Shielding Nano-Composites Based on Silicon and NiFe2O4 Powders

Flexible Electromagnetic Shielding Nano-Composites Based on Silicon and NiFe2O4 Powders

Caracterización de líquidos en la región de microondas usando sensor de permitividad dieléctrica

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