MakerBot qualifies BASF Ultrafuse 316L stainless-steel filament for METHOD 3D printers

MakerBot qualifies BASF Ultrafuse 316L stainless steel filament for METHOD 3D printers

MakerBot qualified BASF’s Ultrafuse 316L stainless steel filament for its 3D printer MakerBot LABS Experimental Extruder and MakerBot METHOD.

The desktop 3D printing company has been working with BASF for a little less than a year to expand the material capacity of its METHOD 3D printing systems. It is believed that the addition of the Ultrafuse 316L stainless steel material will allow users to leverage the METHOD to create manufacturing aids, robotic grippers, and end-use components such as high strength enclosures.

The Ultrafuse 316L from BASF is said to be characterized by high strength, rigidity and durability and can be processed with the experimental MakerBot LABS GEN 2 extruder on the METHOD printers. Once the green part is created, users can send the component to an authorized service provider where it will be debonded and sintered in a high heat and pure hydrogen atmosphere before being shipped back within five days.

MakerBot evaluates the availability of the Ultrafuse 316 filament as a way for METHOD users to experiment with metal 3D printing before investing in more industrial equipment, while also noting the METHOD’s heated build chamber and ability to control speed cool the parts Reduce the risk of delamination and improve the quality of the surface finish.

“Ultrafuse Metal Filaments has removed the barriers between metal 3D printing and users to bring the technology to a wider audience,” commented Firat Hizal, head of the Metal Systems Group at BASF 3D Printing Solutions. “We are very pleased that our Ultrafuse 316L is part of the MakerBot LABS program. We’d like to add the Ultrafuse 316L to our recently launched Ultrafuse 17-4PH filament to make our entire portfolio accessible to MakerBot users. “

“Our customers have expressed an interest in researching metal 3D printing, but have been put off by the high cost and complex processes of traditional metal 3D printing solutions,” added Johan-Till Broer, vice president of product development at MakerBot. “By supporting a metal thread as part of the MakerBot LABS program, customers now have an easier, more cost-effective way to experiment with 3D printed metal before investing in a full printing, debinding, and sintering solution.”

Continue reading: Q&A: BASF discusses Ultrafuse 316L metal 3D printing filament

Debinding and sintering vouchers are offered by MatterHackers who, as a reseller of the Ultrafuse 316L material, also provides services for building board adhesives that are required for printing the material and construction advice due to the special requirements for the Ultrafuse 316L.

“We are excited to have MakerBot METHOD 3D printers join the metal 3D printing ecosystem that we have built with BASF Forward AM,” said Dave Gaylord, vice president of product and technology at MatterHackers. “Access to 3D printing has always been an important goal for MatterHackers. Reliable desktop printers like METHOD and METHOD X, with which real metal parts can be printed cost-effectively, are a big step forward. “

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