Metal 3D Printing

From Digital File to
Functional Part

Transform your digital file into a physical part.
Together, we bring your ideas to life — with speed, precision, and confidence.

A close-up view of several 3D-printed metallic objects with intricate lattice structures, attached to a metal frame, inside what appears to be an industrial manufacturing environment.

Build Capabilities

We offer a wide range of build volumes to suit different application needs:

  • 250 x 250 x 325 mm

  • 500 x 280 x 365 mm

  • 600 x 600 x 600 mm

Whether you're producing prototypes or end-use parts, we scale with your ambition.

Materials We Print In

We work with a robust portfolio of high-performance materials, enabling production across demanding industries:

  • AlSi10Mg

    Lightweight and corrosion-resistant aluminum alloy

  • Ti64 Grade 5

    Aerospace-grade titanium with excellent strength-to-weight ratio

  • SS 316L

    Durable and corrosion-resistant stainless steel

  • IN718

    High-strength nickel alloy for extreme environments

  • Hastelloy X

    Ideal for high-temperature applications

  • 17-4 PH

    Precipitation-hardened stainless steel for high mechanical strength

  • MS1

    Maraging steel for tooling and high-strength applications

Material Data & Quality Assurance

Explore detailed material data sheets for AlSi10Mg and SS 316L to learn more about performance characteristics and processing parameters.

Case Studies Hub

Our Case Studies Hub showcases a wide variety of industrial applications where additive manufacturing made a measurable difference. Each case includes:

  • The business challenge

  • The AM-based solution

  • Quantifiable impact and results

Whether you're in aerospace, automotive, energy, or defence — gain valuable insights from successful strategies and best practices.

  • All
  • Aerospace
  • Industry
  • Internal studies
  • Tooling
A curved, metallic object with perforations on the exterior and a cutaway section revealing a grid of metallic spheres inside, displayed on a white background.

Heat exchanger

  • Material: Hastelloy X Full component build time: 90 hours dual laser
  • Lowered lead time from 9 months to 6 weeks
  • Consolidated from over 700 parts into one single piece
  • 3D Printed features increases heat exchanger performance

Company: Saab

A rectangular metal panel with a grid of small, evenly spaced hexagonal holes and two rectangular cutouts at the bottom, standing upright against a plain white background.

Proof of Concept for a 6G radio

  • Material: AlSi10Mg
  • 4 brackets in one build: 68 hours build time quad laser
  • Substantial lower assembly time and increased cooling performance
  • Consolidated from 7 components into 1, 2 parts per radio needed
  • Reduction of weight which saves energy

Company: Ericsson

A rectangular metallic heat sink with vertical fins and a circular opening on the top surface, photographed against a white background.

Heat Exchanger

  • Combining multiple components into one
  • Printing is done by utilizing full build envelope and M290-2 two lasers with novel print technologies, like Optical Tomography and SmartFusion
  • AM design improves the cooling efficiency and the AM part size is remarkably smaller than the original geometry
  • Weight 39 kg, material 316L
A metallic, 3D-printed structural component with a geometric, lattice design sits on a plain white background. The object has several triangular supports and circular openings at its base.

Support for two reaction wheels in a satellite

  • Material: AlSi10Mg in 60 µm layer thickness
  • Print time full build plate (6 pcs): 7,5 h quad laser
  • Designed through topology optimization with the goal of reducing weight and cost while still maintaining stiffness.
  • The weight reduction is 1/3 in comparison to the previously machined part and the stiffness remains the same.
  • AM enables production of complex desgins without increasing manufacturing costs.

Company: OHB

A rectangular, shallow metal mesh basket with a solid rim and grooved base, photographed against a plain white background.

To Go package boxes made with fiber forming

  • Material: Aluminum
  • Functionally optimized surface structures
  • Parametric design methodology, able to adapt to any type of product
  • Increased production output by 30%

Company: Stora Enso

Three metal 3D-printed parts with lattice-like internal supports rest on a flat base. Text on the base reads “Printed using Smart Fusion” and “e-Stage supports.” The parts have a complex, organic shape.

Different Support structure possibilities

  • Material: Ti64 Grade 5
  • Same design, three different support structures:
    1. e-Stage: easier to remove and faster to print
    2. Smart Fusion: thermal approach from EOS where the meltpool temperature is measured
    3. Standard support

A round metallic industrial part with a central hole and two rectangular protrusions on opposite sides, placed on a plain white background.

Motor Housing for Formula Student

  • Material: AlSi10Mg
  • Full component build time: 10h
  • Layer thickness: 60µm
  • Printing less expensive compared to machining due to the large amount of material that would need to be machined away.
  • Less material waste and therefore more sustainable

Company: Atlas Copco

A metallic rocket engine nozzle with a rounded upper section, narrow middle, and flared lower end. A flange extends from the side near the base. The nozzle is placed on a white background.

Pythom Space rocket engine

lean sheet design by Pythom Space, enabled by additive manufacturing!

  • This part is 3D printed with Inconel IN718 material, and thanks to 3D printing, the manufacturing lead time was reduced from 6+ months to only 6 weeks
  • Regenerative cooling while firing at 3000 °C
  • Successful hot fire tests were conducted only nine months after initial funding

Company: Pythom Space