Metal 3D Printing Prototyping Services by DSB Technologies
DSB Technologies, a world leader in the manufacturing of powder metal components, announced the launch of its Metal Binder Jetting prototyping services for a diverse customer base.
Through this service, customers can leverage the speed and cost efficiency of Metal Binder Jetting to iterate designs more efficiently than conventional metalworking processes.
“DSB views this prototyping program as an important stride to educating the marketplace on the capabilities of the metal binder jet technology and helping grow product application opportunities,” said Paul Hauck, DSB Technologies Chief Operating Officer. “We are broadening access to DSB’s experienced and knowledgeable 3D printing design and process engineers for customers seeking to prototype and iterate their metal part designs.”
Metal Binder Jetting, a metal-based Additive Manufacturing process, delivers quick print speeds and a high degree of design freedom for metal components with complex, meeting efficient production outputs in a wide range of materials.
DSB Technologies remains committed to industrializing the Metal Binder Jetting process for serial production as it adds this 3D printing prototyping capability to its robust technology portfolio as a resource for educating the market on the technology’s capabilities.
With a customer-provided, print-ready solid model, customers can design and print Metal Binder Jetting prototypes within the below specifications:
- Prototypes in two weeks or less: 6-inch cube maximum part size in 17-4 PH Stainless Steel
- Prototypes in four weeks or less: 2-inch cube maximum part size in 316L Stainless Steel, M2 Tool Steel, and 4140 Steel
As a leading metallurgical solutions partner, DSB Technologies brings extensive high temperature sintering capacity combined with its parts making expertise to drive advancements in the industrialization of Metal Binder Jetting.
With DSB Technologies’ prototyping service, customers can leverage a collaborative partnership to develop, design, and iterate applications for Metal Binder Jetting more efficiently.