Addimetal provides a 3D printing platform based on binder deposition on a metal or ceramic powder bed. This technology enables the fast production of complex parts, with high precision and multi-material compatibility.
MBJ – Binder Jetting Metal 3D Printing
Our core technology: layer-by-layer precision using a binding agent on a powder bed
Use cases
Examples of Metal Binder Jetting applications for manufacturing complex and durable parts in various industries
Founded in 2021, the startup ADDIMETAL offers an additive manufacturing (AM) solution based on binder jetting technology on a powder bed.
Our story
The startup and ADDIMETAL's team
Partners
The entities that trust us
Media & Press
Discover Addimetal’s press coverage and media presence in the additive manufacturing world.
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Full-Service Support: From Concept to Metal 3D Printing Production

Additional sales and services

Feasibility study & co‑design

Are you developing a new functional part or looking to adapt an existing design to the Binder Jetting process? We conduct a comprehensive feasibility analysis, taking into account :

  • geometric constraints specific to binder jetting (minimum wall thicknesses, tolerances, powder evacuation)

  • functional requirements (mechanical strength, thermal resistance, etc.)
  • post‑processing constraints (debinding, sintering, secondary machining). Based on this assessment, we support you in the topological and functional optimization of the part, integrating the key parameters of the process to maximize final performance.
    • Hands holding a binder jetting mechanical part made of 17-4ph steel
    Mechanical part printed using Binder Jetting with ceramic and 316L stainless steel powders

    Material selection & qualification

    We support you in selecting and qualifying the powder best suited to your functional requirements, whether it involves metals (steel, stainless steel, specialty alloys) or advanced ceramics.

    We then develop a custom set of process parameters, optimizing:

    the binder deposition rate

  • the saturation and distribution strategy
  • drying conditions
  • and sintering profiles This approach ensures optimized part density, dimensional accuracy, and reproducibility aligned with your industrial or experimental objectives.

    • Machine setup & process optimization

    We configure the printing settings specific to your part and material by adapting:

  • the deposition resolution (droplet size, XY definition)

  • the binder saturation levels according to functional zones
  • and the layer‑by-layer distribution strategies to control deformation and porosity

    • Each setting is validated on test parts and optimized according to key criteria: final density, dimensional accuracy, and mechanical properties.

    Two engineers in a design office working on a computer about powders for the Binder Jetting process.
    An experienced trainer explains additive manufacturing machine settings to a young engineer in a design office.

    Training & knowledge transfer

    We support your team’s skill development through technical training modules on Binder Jetting technology, tailored to your experience level and objectives (research, production, industrialization).

    Our sessions cover :

  • the fundamentals of the process (powder behavior, binder‑substrate interactions, shrinkage phenomena)

  • operation of our system (file preparation, machine calibration, preventive maintenance) The knowledge transfer also includes technical documentation, validated parameter sets, and on‑site or remote support to ensure a secure and efficient ramp-up of your first builds.

    • A committed partner across the entire project lifecycle

    Addimetal supports you at every stage of your project — from initial needs assessment to delivery of the first parts — including co‑design, process tuning, production, and technical follow-up.

    Our integrated approach helps you :

  • reduce iteration cycles

  • secure the transition from prototyping to pre‑series
  • manage the risks associated with the industrialization of complex parts. By combining materials expertise, hands‑on experience, and strong ties to academic research, we act as a technological facilitator to help you sustainably integrate binder jetting into your development, testing, or production workflows.
    • Engineer supporting a client in a design office, illustrating an end-to-end service for metal additive manufacturing using Binder Jetting.