Add to ORKGThe excellent electrical, mechanical and thermal properties along with the high specific surface area of carbon nanotubes make them a strong candidate as functional fillers for polymer matrices in view of developing a multifunctional light-weight composite. However, the significant challenge in achieving a good dispersion of these nanotubes in the host polymer due to their inert chemical surface and tendency to exist as agglomerates inhibits their theoretical potential. Thermoplastic polymers, specifically olefins present a complex scenario for achieving good carbon nanotube dispersion owing to their high melt viscosity and incompatible surface energies with carbon nanotubes. Process parameter optimization and the usage of an economical rea...
Thermally conductive polymer composites have opened up new possibilities in various applications inc...
Polymer nanocomposites are in the focus of global academic research of recent years due to enormous ...
Ever since the discovery of carbon nano materials like carbon nanotube (CNT) and graphene, this clas...
The joint effect of chemical functionalization and polymer melt blending conditions on carbon nanotu...
Carbon nanotubes can currently be obtained with a diameter from about < 1 nm to ???200 nm. Due to th...
There is a great need for advanced functional materials such as light-weight and high strength mater...
Multifunctional polymer nanocomposites that simultaneously possess high modulus and strength, high t...
The study of optimal manufacturing process of composites reinforced with carbon nanotubes has becam...
This project is aimed at developing highly electrical conductive, thermally stable and mechanically ...
Different types of multiscale fillers were fabricated through growing carbon nanotubes on short fibe...
Despite major advances in addressing the dispersion of carbon nanotubes (CNTs) in polymers and their...
Hybridization usually improves interfacial interaction between the components and ensures higher per...
The unique geometry and extraordinary mechanical, electrical, and thermal conductivity properties of...
Polymer composites with carbon nanotubes (CNT) as filler material is an exciting research area, havi...
Polymer has high flexibility and high elasticity, which make it a potential choice for applications ...
Thermally conductive polymer composites have opened up new possibilities in various applications inc...
Polymer nanocomposites are in the focus of global academic research of recent years due to enormous ...
Ever since the discovery of carbon nano materials like carbon nanotube (CNT) and graphene, this clas...
The joint effect of chemical functionalization and polymer melt blending conditions on carbon nanotu...
Carbon nanotubes can currently be obtained with a diameter from about < 1 nm to ???200 nm. Due to th...
There is a great need for advanced functional materials such as light-weight and high strength mater...
Multifunctional polymer nanocomposites that simultaneously possess high modulus and strength, high t...
The study of optimal manufacturing process of composites reinforced with carbon nanotubes has becam...
This project is aimed at developing highly electrical conductive, thermally stable and mechanically ...
Different types of multiscale fillers were fabricated through growing carbon nanotubes on short fibe...
Despite major advances in addressing the dispersion of carbon nanotubes (CNTs) in polymers and their...
Hybridization usually improves interfacial interaction between the components and ensures higher per...
The unique geometry and extraordinary mechanical, electrical, and thermal conductivity properties of...
Polymer composites with carbon nanotubes (CNT) as filler material is an exciting research area, havi...
Polymer has high flexibility and high elasticity, which make it a potential choice for applications ...
Thermally conductive polymer composites have opened up new possibilities in various applications inc...
Polymer nanocomposites are in the focus of global academic research of recent years due to enormous ...
Ever since the discovery of carbon nano materials like carbon nanotube (CNT) and graphene, this clas...