What is a conductive COC
Conductive COC is a conductive cycloolefin copolymer. COC is an engineering plastic with excellent properties that combines cyclohexene-based polymers and conductive fillers to give them conductive properties. Conductive COC is imparted with conductive properties by adding conductive fillers, such as carbon nanotubes, metal particles, etc., to the COC base material. This conductive material is often used in the manufacture of parts and components that require conductive properties to provide protection against static electricity. Conductive COC is widely used in electronics, medical, optical, automotive and other fields. It is often used in the manufacture of parts for electrostatic sensitive equipment, anti-static packaging materials, conductive pipes and connectors, etc., to provide reliable anti-static protection and ensure the safety of equipment and personnel. At the same time, conductive COC can also be applied to optical lenses, touch screens, sensors and other fields to meet the requirements of high-performance products for conductivity and optical performance.
What is a conductive COC.
Conductive COC refers to cyclic olefin copolymer (COC) materials with conductive properties. This material is a widely used engineering thermoplastic that is often used in the manufacture of products such as flexible circuit boards. The mainstream method to improve the conductivity of COC is to add a series of conductive fillers during injection molding or extrusion molding to increase the conductivity of COC material products.
What are the characteristics of conductive COC.
Conductive COC has the following characteristics:
1.Conductivity: By adding conductive fillers, conductive COCs can effectively conduct electricity, providing a path for electrostatic discharge and avoiding problems caused by static build-up and discharge.
2.Transparency: Conductive COCs have good transparency and can be used in applications that require transparency.
3.Heat Resistance and Chemical Stability: Conductive COCs have excellent high temperature resistance and chemical stability, making them suitable for use under various environmental conditions.
4.Mechanical properties: Conductive COC has high rigidity and strength, as well as excellent wear and fatigue resistance.