Markforged Acquires Digital Metal
Acquisition accelerates Markforged’s expansion into mass production of end-use metal parts through Digital Metal’s reliable, production-grade binder jetting solution.
Share
Read Next
Markforged MetalX printer. Photo Credit: Markforged
Markforged — creator of the integrated metal and carbon fiber additive manufacturing (AM) platform The Digital Forge — has entered into a definitive agreement with Höganäs AB to acquire Digital Metal, the creator of a binder jetting solution which is said to be precise and reliable. The acquisition is said to extend Markforged’s capabilities into high-throughput production of metal additive parts.
The addition of Digital Metal furthers Markforged’s strategy to solve manufacturing challenges for industrial customers at the point of need. With this new offering, the company says manufacturers have the opportunity to produce high volumes of functional metal parts with minimal required setup. It is said traditional production often requires months to move from design to manufacturing, introduces third party supplier risk, and provides poor unit economics during ramp up and in lower volumes.
Markforged sees powder binder jetting as a highly scalable AM technology for production grade parts using a variety of metal materials. Digital Metal’s solution is designed to provide high-precision, best-in-class part quality and reliability. Powder binder jetting is said to complement the existing Digital Forge offering, and will expand Markforged’s addressable market by solving new customer problems.
“With the Digital Metal acquisition, Markforged is advancing our vision for distributed manufacturing by enabling the reliable, high-volume production of precise metal parts at the point of need. Infusing Digital Metal’s solution into The Digital Forge platform allows us to address new applications in the medical, automotive, luxury goods and other industries,” says Shai Terem, Markforged president and CEO. “The Digital Metal team has created a robust and scalable solution that complements our existing technologies.”
Founded in 2003, Digital Metal is a wholly owned subsidiary of Höganäs AB and the creator of a proprietary binder jetting AM technology. Known for high productivity, excellent surface quality and superior resolution, Digital Metal printers have been used to produce hundreds of thousands of parts, including parts for leaders in consumer products, academia and the automotive industry. Markforged sees significant opportunities to further accelerate Digital Metal adoption through integrated software capabilities and a global go-to-market engine.
“Markforged’s easy-to-use platform, best-in-class software capabilities and material expertise felt like a natural fit for the future of our technology,” says Christian Lönne, Digital Metal CEO. “With Markforged’s experience and go-to-market scale, we are confident that we will be able to grow our technology together and help more manufacturers produce the high-volume metal parts they need to drive highly productive and cost efficient operations.”
Related Content
-
How Norsk Titanium Is Scaling Up AM Production — and Employment — in New York State
New opportunities for part production via the company’s forging-like additive process are coming from the aerospace industry as well as a different sector, the semiconductor industry.
-
New Electric Dirt Bike Is Designed for Molding, but Produced Through 3D Printing (Includes Video)
Cobra Moto’s new all-electric youth motocross bike could not wait for mold tooling. Parts have been designed so they can be molded eventually, but to get the bike to market, the production method now is additive manufacturing.
-
10 Important Developments in Additive Manufacturing Seen at Formnext 2022 (Includes Video)
The leading trade show dedicated to the advance of industrial 3D printing returned to the scale and energy not seen since before the pandemic. More ceramics, fewer supports structures and finding opportunities in wavelengths — these are just some of the AM advances notable at the show this year.