Sajeel Nk scite author profile

Sajeel Nk

2Publications

2Citation Statements Received

24Citation Statements Given

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Qatar University

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Thermal, Electrical, and Sensing Properties of Recycled HDPE/Carbonaceous Industrial Waste Composites

Mohammad

Kannan

et al. 2021

Macromolecular Symposia

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This work is an endeavor to contemplate a value‐added conductive plastic composite material derived as recycled plastic depending on polyethylene (PE)/carbon black (CB). We choose to add CB as a filler material to enhance the electrical conductivity as well as other properties associated with the composite. The solution mixing method is adopted to develop this composite where the consequences of CB loadings on various parameters like processability, morphology, and thermal stability of the composites are examined. The perceived better filler–matrix interaction and filler dispersion observed in the scanning electron microscopy (SEM) is the underlying reason behind the improved properties. The thermal conductivity of high‐density polyethylene (HDPE) with 90 wt% CB is 2.25 W mK−1. Electrical conductivity increases with the increasing amount of the CB loading. The electrical conductivity of 60 wt% CB is 1 × 10−5 S cm−1. Electrical, thermal, and dielectric studies of the prepared plastic composite material will be studied.

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Thermal, Electrical, and Sensing Properties of Composite Material from Environmental and Industrial Wastage

Nk¹,

Kannan²,

Houkan³

et al. 2020

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This work is an endeavour to contemplate a valueadded conductive plastic composite material derived as recycled plastic depending on Polyethylene (PP)/carbon black. We choose to add Carbon black (CB) as a filler material in order to enhance the electrical conductivity as well as other properties associated with the composite. Solution mixing method was adopted to develop this composite where the consequences of CB loadings on various parameters like processability, morphology and thermal stability of the composites were examined. Electrical conductivity increased with the increasing amount of the CB loading. The clearly perceived better filler-matrix interaction and filler dispersion were observed in images obtained from Scanning Electron Microscope (SEM). These are the underlying reason behind the improved electrical, thermal, sensing and dielectric properties of the prepared plastic composite material.

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Sajeel Nk

Thermal, Electrical, and Sensing Properties of Recycled HDPE/Carbonaceous Industrial Waste Composites

Thermal, Electrical, and Sensing Properties of Composite Material from Environmental and Industrial Wastage

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