Ultrafuse ASA is a high-performance material with similar mechanical properties as ABS. Ultrafuse ASA offers additional benefits such as high UV resistance, toughness, and rigidity.
Ultrafuse ABS Fusion+ made with Polyscope XILOYTM 3D is an engineering filament which has been optimized for 3D-printing. Polyscope is renowned for its material solutions in the automotive industry.
PET CF15 has a high dimensional stability and very low moisture absorption.The heat-resistant property, strength, and stiffness make this filament highly suitable for (humid) industrial applications.
Ultrafuse PA is suitable for applications within a larger temperature range than normal PA filament. BASF‘s Ultramid® grades are compounds on the basis of PA6, PA66 and co-polyamides such as PA6/66.
Ultrafuse PAHT CF15 is a high-performance material that opens new applications. In parallel to its advanced mechanical properties, dimensional stability, and chemical resistance, it is easy to print.
Ultrafuse® 316L and 17-4 PH combine greater freedom of design with a low total cost of ownership. Parts acquire their final properties, through a debinding and sintering process.
Ultrafuse ASA is a high-performance material with similar mechanical properties as ABS. Ultrafuse ASA offers additional benefits such as high UV resistance, toughness, and rigidity.
Ultrafuse ABS Fusion+ made with Polyscope XILOYTM 3D is an engineering filament which has been optimized for 3D-printing. Polyscope is renowned for its material solutions in the automotive industry.
PET CF15 has a high dimensional stability and very low moisture absorption.The heat-resistant property, strength, and stiffness make this filament highly suitable for (humid) industrial applications.
Ultrafuse PA is suitable for applications within a larger temperature range than normal PA filament. BASF‘s Ultramid® grades are compounds on the basis of PA6, PA66 and co-polyamides such as PA6/66.
Ultrafuse PAHT CF15 is a high-performance material that opens new applications. In parallel to its advanced mechanical properties, dimensional stability, and chemical resistance, it is easy to print.
Ultrafuse® 316L and 17-4 PH combine greater freedom of design with a low total cost of ownership. Parts acquire their final properties, through a debinding and sintering process.