The influence of the transparent layer thickness on the absorption capacity of epoxy/carbon nanotube buckypaper at X‐band

The influence of the transparent layer thickness on the absorption capacity of epoxy/carbon nanotube buckypaper at X‐band

Carbon nanotube films (BPs) as EMI shielding materials can be applied in electronic and communication devices due to their high electrical conductivity. Sandwich structures can offer excellent shielding effectiveness by introducing a wave‐transmitting layer between conductive films. However, the opt...

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Veröffentlicht in:Journal of applied polymer science 2021-12, Vol.138 (47), p.n/a
Hauptverfasser: Reis, Felipe Carlos dos, Rezende, Mirabel Cerqueira, Ribeiro, Bruno
Format: Artikel
Sprache:eng
Schlagworte:
Absorption
Carbon nanotubes
Composite materials
composites
dielectric properties
Electrical resistivity
Electromagnetic shielding
graphene, and fullerenes
magnetism and magnetic properties
Materials science
Morphology
nanotubes
Optimization
Polymers
resins
Sandwich structures
Substrates
Thickness
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Ribeiro, Bruno
description Carbon nanotube films (BPs) as EMI shielding materials can be applied in electronic and communication devices due to their high electrical conductivity. Sandwich structures can offer excellent shielding effectiveness by introducing a wave‐transmitting layer between conductive films. However, the optimization of the structure demands a deep investigation and plays a crucial role in the final shielding properties of the composites. In this work, BPs are incorporated into epoxy substrates with variable thicknesses (1–6 mm) to fabricate epoxy/BP sandwich structures. The morphology of the CNT films is analyzed by SEM, and the electrical conductivity of all prepared samples is measured by 4‐point method. The electromagnetic tests are carried out in the X‐band (8.2–12.4 GHz) through the scattering parameters. SEM images reveal a porous structure without visible agglomeration. The electrical conductivity of the BP reaches up to 996 S/m, whereas the values for epoxy/BP composites varies in the range of 8.51–3.13 S/m (1 to 3 mm). BP total shielding efficiency (SET) is approximately 14 dB along the X‐band spectrum, with similar contributions of reflection and absorption losses. While, the composites show mainly absorbing behavior, especially in the thicker samples, with more significant SET values (23.4 dB–6 mm). In this work, carbon nanotubes films (BPs) are incorporated into epoxy resin samples with variable thickness (1‐6 mm). The electromagnetic tests reveal that BP total shielding efficiency (SET) is approximately 14 dB along the X‐band spectrum, with similar contributions of reflection and absorption losses. While, the composites show mainly absorbing behavior, especially in the thicker samples, with more significant SET values (23.4 dB–6 mm).
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BP total shielding efficiency (SET) is approximately 14 dB along the X‐band spectrum, with similar contributions of reflection and absorption losses. While, the composites show mainly absorbing behavior, especially in the thicker samples, with more significant SET values (23.4 dB–6 mm). In this work, carbon nanotubes films (BPs) are incorporated into epoxy resin samples with variable thickness (1‐6 mm). The electromagnetic tests reveal that BP total shielding efficiency (SET) is approximately 14 dB along the X‐band spectrum, with similar contributions of reflection and absorption losses. 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BP total shielding efficiency (SET) is approximately 14 dB along the X‐band spectrum, with similar contributions of reflection and absorption losses. While, the composites show mainly absorbing behavior, especially in the thicker samples, with more significant SET values (23.4 dB–6 mm). In this work, carbon nanotubes films (BPs) are incorporated into epoxy resin samples with variable thickness (1‐6 mm). The electromagnetic tests reveal that BP total shielding efficiency (SET) is approximately 14 dB along the X‐band spectrum, with similar contributions of reflection and absorption losses. 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Sandwich structures can offer excellent shielding effectiveness by introducing a wave‐transmitting layer between conductive films. However, the optimization of the structure demands a deep investigation and plays a crucial role in the final shielding properties of the composites. In this work, BPs are incorporated into epoxy substrates with variable thicknesses (1–6 mm) to fabricate epoxy/BP sandwich structures. The morphology of the CNT films is analyzed by SEM, and the electrical conductivity of all prepared samples is measured by 4‐point method. The electromagnetic tests are carried out in the X‐band (8.2–12.4 GHz) through the scattering parameters. SEM images reveal a porous structure without visible agglomeration. The electrical conductivity of the BP reaches up to 996 S/m, whereas the values for epoxy/BP composites varies in the range of 8.51–3.13 S/m (1 to 3 mm). BP total shielding efficiency (SET) is approximately 14 dB along the X‐band spectrum, with similar contributions of reflection and absorption losses. While, the composites show mainly absorbing behavior, especially in the thicker samples, with more significant SET values (23.4 dB–6 mm). In this work, carbon nanotubes films (BPs) are incorporated into epoxy resin samples with variable thickness (1‐6 mm). The electromagnetic tests reveal that BP total shielding efficiency (SET) is approximately 14 dB along the X‐band spectrum, with similar contributions of reflection and absorption losses. While, the composites show mainly absorbing behavior, especially in the thicker samples, with more significant SET values (23.4 dB–6 mm).</abstract><cop>Hoboken, USA</cop><pub>John Wiley &amp; Sons, Inc</pub><doi>10.1002/app.51407</doi><tpages>11</tpages><orcidid>https://orcid.org/0000-0002-1596-0528</orcidid></addata></record>
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subjects Absorption
Carbon nanotubes
Composite materials
composites
dielectric properties
Electrical resistivity
Electromagnetic shielding
graphene, and fullerenes
magnetism and magnetic properties
Materials science
Morphology
nanotubes
Optimization
Polymers
resins
Sandwich structures
Substrates
Thickness
title The influence of the transparent layer thickness on the absorption capacity of epoxy/carbon nanotube buckypaper at X‐band
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