Additive Manufacturing for Aerospace
BASF offers a broad portfolio of metals and technologies to the Aerospace Additive market, all focused on improving the technology while maintaining the existing fit, form, and function (FFF).
Engineering Plastics Filaments
BASF is partnering with a filament market to bring engineering plastics including Ultrason PESU, Ultramid PA, and Elastollan TPU to the market for FFF applications. This technology provides improved Z strength and inherent EMI shielding properties.
BASF is partnering with a filament market to bring engineering plastics including Ultrason PESU, Ultramid PA, and Elastollan TPU to the market for FFF applications. This technology provides improved Z strength and inherent EMI shielding properties.
Polyamide 6 Sintering Powders
BASF is developing Ultramid PA6 powders for SLS. Current development materials are not FST compliant for aerospace applications.
BASF is developing Ultramid PA6 powders for SLS. Current development materials are not FST compliant for aerospace applications.
Stainless Steel 316L Filled Filament
BASF is in the soft launch phased with stainless steel 316L filled filament that can be used on the FFF technology for lower cost 3DP metal parts.
BASF is in the soft launch phased with stainless steel 316L filled filament that can be used on the FFF technology for lower cost 3DP metal parts.
HP Partnership
BASF is one of the founding material companies on HP’s Open Materials Platform for the Multijet Fusion technology. We are developing sintering powders for use in HP processes.
BASF is one of the founding material companies on HP’s Open Materials Platform for the Multijet Fusion technology. We are developing sintering powders for use in HP processes.
Photopolymer
Several photopolymer technologies are being developed for stereo lithography and jetting applications. BASF formulations have higher impact strengths and comparable HDTs.
Several photopolymer technologies are being developed for stereo lithography and jetting applications. BASF formulations have higher impact strengths and comparable HDTs.
