CB4392 Carbon Nanotube Masterbatch (PA6)

Carbon Nanotube Masterbatch (PA6) Description

Carbon Nanotube Masterbatch (PA6) is a highly conductive plastic masterbatch that can be used in various fields that require anti-static such as electronic and electrical components, anti-static plastic containers, etc. In addition, SAM recommends the use of a high melt index resin matrix and masterbatch for compounding, injection molding, and extrusion process.

Carbon Nanotube Masterbatch (PA6) Specifications

Carbon Nanotube Masterbatch (PA6) Applications

Carbon Nanotube Masterbatch (PA6) is suitable for a variety of applications requiring conductive and anti-static (ESD) properties, enhanced electrical conductivity, improved mechanical strength, and increased thermal conductivity. They are utilized for antistatic applications

Carbon Nanotube Masterbatch (PA6) Packaging

Our Carbon Nanotube Masterbatch (PA6) is carefully handled during storage and transportation to preserve the quality of our product in its original condition.

Carbon Nanotube Masterbatch (PA6) FAQs

Q1. What is a Carbon Nanotube Masterbatch?

A carbon nanotube masterbatch is a concentrated mixture of carbon nanotubes (CNTs) dispersed in a polymer matrix. This masterbatch can be diluted and processed to create materials with enhanced properties such as improved mechanical strength, electrical conductivity, and thermal stability.

Q2. What types of polymers can be used in carbon nanotube masterbatches?

Carbon nanotube masterbatches can be made with various polymers, including polyethylene (PE), polypropylene (PP), polystyrene (PS), polycarbonate (PC), polyvinyl chloride (PVC), and more. The choice of polymer depends on the intended application and desired properties of the final product.

Q3. How are carbon nanotube masterbatches typically used?

Carbon nanotube masterbatches are usually blended with a base polymer during processing (e.g., extrusion, injection molding) to create composite materials with desired properties. The masterbatch can be diluted to achieve the required concentration of CNTs in the final product.