A Picture of a metal x Markforged printer.


The Metal Printing Industrial Revolution

The Metal X delivers metal parts overnight. It uses a new technology and parts are a fraction of the cost of regular metal components. Instantly leave 20th century manufacturing behind, creating anything from industrial replacement parts to injection moulds to working prototypes. Built on already proven technology the Metal X comes as a bundle and includes the wash station and sintering oven. The filament based material is very cost effective making metal additive manufacturing attractive to businesses of all sizes.

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Print with:

17-4 Stainless Steel

17-4 stainless steel combines high strength, corrosion resistance and hardness and is therefore widely used in the aerospace, medical and petroleum industries. We use it for mounting devices and tools on the Metal X.

H13 Tool Steel

H13 is a hot work steel widely used in die casting and tooling applications. Alloyed with chromium, molybdenum, and vanadium, it is known for its strength and resistance to thermal shock.

A2 Tool Steel

A-2 tool steel is air hardened with excellent impact resistance. We use it for stamps, dies and molds on the Metal X.

D2 Tool Steel

The high carbon and chromium content of D-2 tool steel provides high hardness and abrasion resistance (but not as hard as A-2). D-2 is often used for cutting tools.

Inconel 625

The strength of Inconel 625, combined with its impressive heat resistance, makes it ideal for heat and pressure shielding. This super alloy is used in jet engines and medical applications and is very hard to work with.

Copper (99,8 %)

Known for its high thermal and electrical conductivity, ductility, and machinability, copper is widely used in heat exchangers and electrical and construction applications.

A picture of a metal brake leaver that was printed on a metal x markforged machine.

ADAM Technology – A brief guide

Atomic Diffusion Additive Manufacturing

The Metal X uses an innovative technology to 3D print metal. Metal powder appears in the printing material in a very high concentration and is spooled, therefore it can be delivered via a heated nozzle.
This means printing is done by the already proven FDM process. Reassuringly, it’s completely without the toxic metal dust usually associated with metal printing. The sintering process that follows causes atomic diffusion (ADAM). This is due to the heat, the atoms shift slightly and stick together, resulting in an overnight metal part.
Upon completion the components achieve excellent mechanical properties and enormous rigidity in all directions.

ADAM allows the creation of unique geometry, such as closed honeycomb structures. As a result components that resemble a complex bone structure can also be realised with the Metal X. In other words a closed cell inside, encased in a sturdy outer shell.
Unsurprisingly, this geometry cannot be manufactured with a traditional subtractive methods or even with direct metal laser sintering process (DMLS). This means that the Metal X will allow you and other engineers to find new ways to change the world.

Large construction volume, high-quality resolution

The Metal X has a large construction volume. This enables the production of major components, end-use parts or spare parts in a range of materials quickly and inexpensively.
Components can be printed with a layer height of 50 μm, therefore even the smallest details can have the highest precision.

Width Build Volume
Height Build Volume
Depth Build Volume
Layer Height

Print components with predictable precision and tolerance

Highly stable 3D printed components designed for industrial applications require innovative and intelligent software. It is for this reason that Eiger is easy to use and allows you to easily control the stability and quality of your prints. With a cloud version shipped with every machine, Eiger offers you the benefits of automatically improving functionality, through seamless updates.

Learn more about applications with metal 3D printing!

For which applications is the Metal X suitable? How do I design correctly for metal 3D printing? What do users say and where can I find more information? – This is the right place for you! We listed some information leading you directly to the matching answers.

Design Guide

DfAM – How do you design your part best for metal 3D printing? In this guide you will find valuable tips on design, material selection and post-processing.

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Problemes to solve

In this white paper, we take a look at three benefits of metal additive manufacturing and three problems the technology is perfectly suited to solve.

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Case Study

In this practical case study from Stanley Black & Decker, cost and lead time were saved by optimizing an assembly.

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Metal X part


An application engineer from Markforged explains the Metal X system and which materials are available. He also shows a complete run from printing to the finished part.

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