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Mayavan, T.
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- 2024Development of flexible poly vinyl alcohol composite for electromagnetic interference shielding using areca microfiber, cobalt Nps, and rice bran biocharcitations
- 2023OPTIMIZATION OF PROCESS PARAMETERS FOR A SOLID-STATE-WELDED AISI 430 STEEL JOINT WITH THE GRG REINFORCED RESPONSE SURFACE METHODOLOGY
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article
Development of flexible poly vinyl alcohol composite for electromagnetic interference shielding using areca microfiber, cobalt Nps, and rice bran biochar
Abstract
This study investigates the development of composite materials tailored for high-efficiency electromagnetic shielding. The study focuses on incorporating rice bran biochar and cobalt particles alongside areca microfibers within a polyvinyl alcohol (PVA) matrix. The composites, fabricated via the solution casting process, underwent rigorous evaluation in accordance with relevant ASTM standards. Key findings include the remarkable relative permittivity values of “PAB13,” which achieved approximately 6.94, 4.92, 3.47, and 0.89 at 8, 12, 16, and 20 GHz; the successful outcome is ascribed to the strategic blend of 5.0 volume percent biochar and 2.0 volume percent cobalt particles. In contrast, “PAB21” exhibited the lowest relative permittivity values, recording approximately 4.25, 2.35, 2.01, and 0.44 at the same frequencies. Moreover, “PAB13” excelled in electromagnetic interference (EMI) shielding, with absorption values of around 14.44, 18.14, 44.12, and 46.81 dB, reflection values of about 3.13, 15.23, 12.43, and 17.02 dB, and total shielding effectiveness values of roughly 17.57, 33.37, 56.55, and 63.83 dB across 8 to 20 GHz frequencies. The study also revealed that “PAB23” displayed exceptional magnetic permeability, exceeding other composites, with values of 3.6, 5.1, 6.1, and 12.1 at 8, 12, 16, and 20 GHz. This magnetic permeability superiority is attributed to its unique composition and the presence of 20 vol.% of areca microfibers, along with cobalt and rice bran biochar particles. Additionally, “PAB22” showcased superior tensile strength, reaching up to 54.6 MPa, while “PAB23” demonstrated the highest hardness values of approximately 44 Shore-D. These findings collectively emphasize the promise of these composite materials in high-efficiency shielding applications.