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Sculpteo & BASF Launch New Bio-Sourced Nylon PA11 Range

Paris-headquartered 3D printing service bureau Sculpteo, together with the Forward AM division of parent company BASF will launch four new sustainable and bio-sourced 3D printing materials based on Nylon PA11.

Derived from renewable castor oil, the materials in the new range bridge the gap between performance and sustainability, possessing high chemical resistance, elongation, and durability properties. A member of the nylon family of polymers, Polyamide 11 (PA 11) is a bioplastic, created by the polymerization of the organic compound 11-aminoundecanoic acid.

The new materials, namely Ultrasint PA11, Ultrasint PA11 ESD, Ultrasint PA11 CF, and PA11 MJF, are now available in Sculpteo’s catalog.

Ultrasint PA11

The first of Sculpteo and BASF’s new materials are designed for use with Selective Laser Sintering (SLS) technology, exhibiting high ductility and impact strength for the production of durable parts able to withstand high mechanical loads. Based solely on renewable biomass sources, Ultrasint PA11 is engineered for the 3D printing of lightweight designs through reducing wall thickness, and also offers “interesting properties” for parts requiring contact with skin.

The material is designed with high impact resistance to make it suitable for applications within the automotive sector, such as car interior components, in addition to being ideal for the manufacture of living hinges.

Ultrasint PA11 is a bio-derived powder with exceptionally high toughness. Image via Sculpteo.
Ultrasint PA11 is a bio-derived powder with exceptionally high toughness. Image via Sculpteo.

Ultrasint PA11 ESD

Offering new possibilities within the electronics sector, in particular, Ultrasint PA11 ESD is a bio-based powder material with electrostatic discharging properties, which refers to the sudden flow of electricity between two electrically charged objects caused by contact. The material is designed to increase the safety process within advanced applications where electrostatic discharging may occur.

Equipped with mechanical and thermal characteristics, the material can be used for the production of electronic housings, jigs, and fixtures for electronics and tooling applications.

Ultrasint PA11 ESD is a bio-based powder material with electrostatic discharging properties. Image via Sculpteo.
Ultrasint PA11 ESD is a bio-based powder material with electrostatic discharging properties. Image via Sculpteo.

Ultrasint PA11 CF

Claimed to be one of the strongest materials currently available across the 3D printing sector, Ultrasint PA11 CF (Carbon Fiber) combines high ductility and impact performance with high rigidity.

The carbon-fiber-reinforced material enables the printing of lightweight designs through reducing wall thickness and is engineered to provide advanced mechanical performance for parts where both strength and rigidity are required.

Ultrasint PA11 CF is a carbon-fiber-reinforced 3D printing material for use in multiple applications. Image via Sculpteo.
Ultrasint PA11 CF is a carbon-fiber-reinforced 3D printing material for use in multiple applications. Image via Sculpteo.

PA11 for MJF

The fourth material made available by Sculpteo and BASF differs from the other three in the range as it uses Multi-Jet Fusion (MJF) technology. MJF uses a liquid binding agent to create the layers of an object before a detailing agent is employed to create fine details and smooth the object’s surface.

The PA11 material is suitable for use in medical, impact resistance, and living hinge applications, among others.

PA11 uses Multi-Jet Fusion technology. Image via Sculpteo.
PA11 uses Multi-Jet Fusion technology. Image via Sculpteo.