PolyPropylene MWCNT Nanocomposite Masterbatch
Applications of Multi-Walled Carbon Nanotubes
Polymer
Improves Mechanical Properties
With small addition of MWCNT or MWCNT based materbatch in the matrix polymer can improve many of its mechnical properties.
Improve Electrical Conductivity
With an accurate addition of MWCNT/ its variants in a matrix to get a well disperessed nanocomposite which enchance its electrical properties
Improve Thermal Conductivity
MWCNT is the world’s most conductive material to heat MWCNT or its variants with a small addition can improve thermal conductivity
Advantages of Multi-walled Carbon Nanotubes Nanocomposites
Enhanced Mechanical Properties
Increased tensile strength and stiffness
Improved impact resistance
Enhanced fatigue resistance
Thermal Conductivity Improvement
Higher thermal conductivity compared to traditional materials
Potential applications in heat dissipation and thermal management
Electrical Conductivity Enhancement
Superior electrical conductivity properties
Potential applications in electronics and energy storage
Lightweight and High Aspect Ratio
Low density and high aspect ratio of MWCNTs
Advantages in aerospace, automotive, and sports industries
Chemical and Corrosion Resistance
Resistance to chemical degradation and corrosion
Potential applications in chemical processing and infrastructure
Applications of Multi-walled Carbon Nanotubes Nanocomposites
Enhanced mechanical properties
Improved electrical conductivity
Increased thermal stability
Lightweight and high strength
Enhanced barrier properties
Improved chemical resistance
Potential for energy storage applications
Promising for biomedical applications
Environmental sustainability
Wide range of potential industrial applications