PETG CF: Balance and Performance
PETG CF combines the printability of PETG with the stiffness of carbon fiber. It enables the production of lightweight, strong, and dimensionally stable technical parts for a wide range of industrial applications.
ASA CF (Carbon Filled)ASA CF: Outdoor Durability
ASA CF combines ASA’s natural resistance to UV and weathering with the stiffness of carbon fiber. It is particularly suited for technical parts exposed to outdoor environments.
ABS FR (flame retardant)ABS FR: Safety and Strength
ABS FR is designed for environments where fire safety is critical. It maintains the mechanical performance of ABS while providing flame-retardant properties suitable for enclosures, electrical components, and regulated technical parts.
ABS-CF10 (Carbon Filled)ABS CF10: Rigidity and Precision
ABS CF10 combines the toughness of ABS with carbon fibre reinforcement to deliver superior stiffness and improved dimensional stability. It is ideal for manufacturing technical parts requiring lightweight performance, precision, and enhanced mechanical strength.
Nylon PA 11 ESDNylon PA 11 ESD (polyamide): engineering grade SLS thermoplastic with electrostatic discharge properties
This material with electrostatic discharge properties is optimal for advanced applications and in environments where electrostatic discharges matters.
Thanks to its interesting mechanical properties, it offers new possibilities for a wide range of new applications, in particular for the electronics sector. Its great mechanical and thermal characteristics make it particularly interesting for electronic boxes, durable jigs, fixtures and tools for electronics industry.
Nylon PA 11 CF (Carbon Filled)
Nylon PA 11 CF (polyamide): lightweight and robust high performance SLS thermoplastic
Nylon PA 11 CF (carbon-filled) is designed for high performance applications. The parts produced by this carbon fiber reinforced material have high tensile strength, elasticity and high impact resistance. It is therefore ideal for applications in environments where high strengths and rigidity are required and/or parts are exposed to particular environments (eg chemicals, detergents, oil). It allows robust lightweight designs thanks to its high strength-to-weight ratio.
Nylon 11 – PA 11 – Polyamide 11
Nylon PA 11 (polyamide): a strong and tough engineering-grade SLS thermoplastic
Parts produced with this material show a high elongation at break, elasticity and high impact resistance. Typical applications are in environments where high deformations and/or exposure to special surroundings may occur.
Polypropylene – PP
Polypropylene (PP): a production-grade SLS thermoplastic
It offers an excellent plasticity, high elongation, low moisture absorption and high durability. It is resistant to most acids and bases and has a slightly translucent appearance.
PEKK Antero 800NA
Antero 800NA: a PEKK-based high-performance FDM thermoplastic
Antero 800NA is a PEKK-based FDM thermoplastic. It combines FDM’s design freedom and ease of use with the excellent strength, toughness and wear-resistant properties of PEKK material.
Antero 800NA exhibits high heat resistance, chemical resistance, low outgassing and dimensional stability, particularly in large parts.
Appropriate applications include aircraft components exposed to jet fuel, oil and hydraulic fluid, spacecraft parts that demand low outgassing and chemical-resistant industrial parts. Using Antero 800NA with FDM technology avoids the waste associated with subtractive manufacturing of high-cost bulk PEKK material.
PEKK Antero 840CN03
Antero 840CN03: a PEKK-based high-performance FDM thermoplastic
Antero 840CN03 is a PEKK-based FDM thermoplastic combining the excellent physical and mechanical qualities of PEKK with electrostatic dissipative (ESD) properties. The material is fi lled 3% by weight with carbon nanotubes.
As a high-performance polymer, Antero 840CN03 exhibits exceptional chemical and wear resistance, ultra-low outgassing properties and consistent ESD performance. ESD values range from 104 – 10° ohms per square inch. This makes the material particularly suitable for space and industrial applications where these qualities are critical.