TECACOMP PA66 CF40 black 1014832
Polyamide 66 Compound 40% carbon fibre reinforced - maximum strentgh and stiffness
TECACOMP PA66 CF40 black is a carbon fibre reinforced PA66 compound developed for heavy-duty applications requiring maximum strength, thermal stability, and electrical conductivity. Based on semi-crystalline polyamide 66 resin (PA66), the fibre reinforced PA66 granules provide a substantial increase in tensile, flexural, and compressive strength, along with excellent dimensional stability under load.
Offering the highest mechanical reinforcement within Ensinger’s compound portfolio, TECACOMP PA66 CF40 black surpasses both GF- and CF-reinforced standard materials. It is particularly suitable where structural strength must be combined with electrical functionality – for example, in conductive housings, mounting parts, shields, or lightweight structural components – making it a reliable choice where other PA66 plastics or conventional solutions reach their limits.
This electrically conductive PA66 plastic is designed for continuous use up to 110 °C and short-term thermal exposure up to 170 °C. With optimised flow properties for PA66 injection molding, the PA66 pellets enable the production of complex parts with tight tolerances.
Typical applications include the replacement of metal components, load-bearing connectors and functional housings.
Offering the highest mechanical reinforcement within Ensinger’s compound portfolio, TECACOMP PA66 CF40 black surpasses both GF- and CF-reinforced standard materials. It is particularly suitable where structural strength must be combined with electrical functionality – for example, in conductive housings, mounting parts, shields, or lightweight structural components – making it a reliable choice where other PA66 plastics or conventional solutions reach their limits.
This electrically conductive PA66 plastic is designed for continuous use up to 110 °C and short-term thermal exposure up to 170 °C. With optimised flow properties for PA66 injection molding, the PA66 pellets enable the production of complex parts with tight tolerances.
Typical applications include the replacement of metal components, load-bearing connectors and functional housings.