CARBON-FIBRE REINFORCED HIGH-DENSITY
POLYETHYLENE (HDPE-CF)
Carbon-Fibre Reinforced High-Density Polyethylene (HDPE-CF) While previous attempts at using HDPE in 3D printing have proven challenging, Innomerix HDPE-CF compounds provide much higher dimensional stability and weld strength, while remaining light weight. This allows the material to be used in applications that had not previously been possible.
Carbon-Fibre Reinforced High-Density Polyethylene (HDPE-CF) While previous attempts at using HDPE in 3D printing have proven challenging, Innomerix HDPE-CF compounds provide much higher dimensional stability and weld strength, while remaining light weight. This allows the material to be used in applications that had not previously been possible.
CARBON-FIBRE REINFORCED HIGH-DENSITY
POLYETHYLENE PRODUCTS
CARBON-FIBRE REINFORCED HIGH-DENSITY POLYETHYLENE PRODUCTS
Excellent chemical resistance
High heat deflection temperature
Excellent mechanical properties
Suitable for injection moulding, extrusion, and additive manufacturing
Suitable for outdoor and marine applications
Excellent chemical resistance
High heat deflection temperature
Excellent mechanical properties
Suitable for injection moulding, extrusion, and additive manufacturing
Suitable for outdoor and marine applications
This composite material excels in applications demanding high tensile strength, impact resistance, and reduced weight. In the automotive industry, HDPE-CF in 3D printing is utilized to manufacture components that require a balance between strength and weight, contributing to fuel efficiency and overall performance improvements.
In the aerospace sector, HDPE-CF compounds find applications for producing lightweight yet sturdy prototypes and functional parts. The material's enhanced mechanical properties make it suitable for creating components in demanding environments where strength-to-weight ratios are crucial.
Overall, Carbon-Fiber Reinforced HDPE compounds in 3D printing find applications in industries where the combination of HDPE's durability and carbon fiber's strength is essential, such as automotive, aerospace, and other sectors requiring high-performance materials.