Ajith K. Koroth scite author profile

Ajith K. Koroth

4Publications

40Citation Statements Received

45Citation Statements Given

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Affiliations

International Institute of Information Technology, Indian Institute of Technology Kharagpur

Publications

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Highly filled multilayer thermoplastic/graphene conducting composite structures with high strength and thermal stability for electromagnetic interference shielding applications

Joseph

Koroth

John

et al. 2019

J of Applied Polymer Sci

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Polyvinyl chloride (PVC)/graphene and poly(methyl methacrylate) (PMMA)/graphene nanocomposites were made by solution casting technique with graphene weight fractions of 1, 5, 10, 15, and 20%. Multilayer structures of the composites were made by hot compression technique to study their electromagnetic interference shielding effectiveness (EMI SE). Tensile strength, hardness, and storage modulus of the nanocomposites were studied in relation with graphene weight fraction. There has been a substantial increase in the electrical conductivity and EMI SE of the composites with 15-20% filler loading. Differential thermal analysis of the composites shows improved thermal stability with an increase in graphene loading. PMMA/graphene composites have better thermal stability, whereas PVC/graphene composites have superior mechanical properties. About 2 mm thick multilayer structures of PMMA/graphene and PVC/graphene composites show a maximum EMI SE of 21 dB and 31 dB, respectively, in the X band at 20 wt % graphene loading. Figure 6. SEM images of the tensile fractured surface of (a) PMMA/20 wt % graphene composite, (b) PVC/20 wt % graphene composite, (c) ultimate tensile strength of polymer/graphene composites, (d) Young's modulus of polymer/graphene composites. [Color figure can be viewed at wileyonlinelibrary.com] ARTICLE WILEYONLINELIBRARY.COM/APP

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Improved ultra-wide bandwidth bow-tie antenna with metamaterial lens for GPR applications

Koroth

Bhattacharya

2014

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Improving the GPR Detectability Using a Novel Loop Bowtie Antenna

Koroth¹,

Bhattacharya²

2017

JTIT

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Abstract-The Ground Penetrating Radar (GPR) technique finds immense applications in civil engineering today, as the most suitable approach for non-destructive testing of pavements, highways, concrete structures, and more. The major challenge in carrying out a GPR evaluation is that the properties of the probed medium are usually unknown. The permittivity and conductivity of the medium may vary from those of air to water. The electromagnetic waves also have a frequency dependent attenuation. The ability of GPR to detect signals reflected and scattered by the targets largely depends upon the antenna performance. This paper studies a novel 11:1 wideband loop bowtie antenna with very good radiation properties in the entire operating bandwidth. Synthetic and experimental results are presented for the return loss and gain of the antenna. Furthermore, experimental results are presented for the radiation patterns in the E-and H-plane. We also used the antenna to measure B-scans over two different pipes, a bamboo, and a reinforced concrete structure. All results obtained with the proposed antenna have been compared with results obtained by using a RC loaded antenna. It has been found that the loop bowtie antenna has excellent detection capability and produces less clutter. The loop loading technique can be applied to existing antennas for improved GPR imaging. This will improve the detectability of GPR by improving the target return signal.

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An Integrated Method of PCA and PSM for Localization of Hyperbolic Signatures in Radargram

K.M¹,

Koroth²

2020

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Ajith K. Koroth

Highly filled multilayer thermoplastic/graphene conducting composite structures with high strength and thermal stability for electromagnetic interference shielding applications

Improved ultra-wide bandwidth bow-tie antenna with metamaterial lens for GPR applications

Improving the GPR Detectability Using a Novel Loop Bowtie Antenna

An Integrated Method of PCA and PSM for Localization of Hyperbolic Signatures in Radargram

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