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 AISi10Mg and SS 316L to learn more about performance characteristics and processing parameters.

Whether you need fast turnaround, reverse engineering, or certified quality control - our Metrology Lab delivers the precision you can trust!

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 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

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

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 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

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 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 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 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