Industrial 3D printing

Why Markforged’s vision is making industrial 3D printing more accessible

The 3D printing industry is constantly pushing the boundaries for what is possible to print. But lowering the thresholds to make industrial 3D printing more accessible is equally important.

Back in 2016, when PLM Group’s 3D printing division decided to partner with the innovative American 3D printing company Markforged, we knew it was a perfect fit. We are passioned in our quest to provide reliable industrial-grade 3D printing solutions to our growing customer base from various industry verticals.

This was also the basic concept that Markforged’s founder and MIT alumni, Greg Mark, brought with him when he started the company in 2013. At that time, there was a huge gap between low-end 3D printers and production printers. Low-end printers had, and still have, limitations in terms of reliability and mechanical properties in the components you print. They are, more or less, good for prototyping. Even though this was the main application at the dawn of 3D printing some thirty years ago, many companies that have used 3D printing as a means for rapid prototyping, now see other valuable usage areas. The lowest hanging fruits are production tools, like jigs, fixtures and grippers.

“One of the main reasons for 3D printing production tools is that it shortens lead times for tooling remarkably”, says Petteri Niemelä, application specialist at PLM Group´s 3D Print division. “It can also drastically reduce production costs, especially compared to CNC machined aluminium parts, and it does give a lot more design freedom when you want to customize tools, for optimized ergonomy, for example, or reduced weight.”

3D printed tools have saved many euros and dollars for small and large manufacturing companies, but they can’t be printed using a 2,000 euro 3D printer. It was this realization that drove Markforged to develop their unique technology with continuous carbon fiber reinforcement. Basically, weaving long strands of carbon fiber into the build process to create unprecedented strength from regular FFF technology. Whether you are using the desktop sized Mark Two, or the industrial X7, parts printed on a Markforged composite printer have properties that in some cases are equivalent to traditionally manufactured aluminium tools.

”We are using our Markforged printer actively to print production line tools and other product development applications.”, says Matti Ojala, Mechanical Engineer, KaVo Kerr Group. “Mechanical properties and tolerances are good enough for our applications. With our Mark Two printer we have been able to cut down lead time for tooling from two weeks to 1-2 days.”

The strength of Markforged can also be seen in the money they bring in on funding. In the latest round, the company brought 82 million dollars, all ear-marked for research and development. Doubling the 83 head strong engineering team at their headquarters in Watertown, Massachusetts, is top priority. For customers, this is a good thing, because it will enable the company to develop more materials, maintain their high quality in production, and bring a tonne of new solutions to the market.

The initial driver that brought the first composite 3D printer to the market some six years ago is now about to reshape the metal 3D printing landscape. Metal 3D printing has long been considered very expensive, with an average cost of about 400,000 euro for a metal printer. With the Markforged Metal X, priced at around 100, 000 euros, metal printing is becoming much more accessible to the manufacturing industry.

“With lower investment costs and less demands on the actual installation site, it’s just easier to tap into metal additive than before”, says Petteri Niemelä, application specialist at PLM Group. “You are getting in the fast lane for experimenting and also educating your staff, making sure you have the knowledge and the tools to grasp opportunities and tackle challenges in 3D printing in the future.