AM Forum March 17.-18., 2025 | Berlin

The AM Forum 2025 is just around the corner, and we are excited to present the latest developments in Additive Manufacturing (AM). Under the motto "Boosting AM applications in industrial production," we will introduce selected industrial and research projects from our institutions, showcasing the opportunities AM offers to the economy.

Our Experts – On-site for You
Our colleagues are looking forward to discussing the latest trends and projects in Additive Manufacturing with you.

 

Highlight Day 1 – "AM Meets AI – What Can We Expect?" Impulse Session and Q&A


March 17 from 14:00 to 15:00 | Main Stage

From 3D scanning to personalized 3D-printed shoes, Dr. Matthias Brück, Head of Virtualization, and Marc Schoemann, CTO of Zellerfeld, will share their visions and insights into the future of AI-supported 3D printing, particularly in the footwear industry.

Be there and discover how Additive Manufacturing is shaping the industry of tomorrow!

Besuchen Sie unseren Stand (Nr. 02), wir präsentieren:

Digitale Zwillinge (BigData LMD)

Der Einsatz digitaler Zwillinge fördert die Effizienz und Qualität der Additiven Fertigung und bietet ein umfassendes Verständnis des gesamten Herstellungsprozesses.

Mehr Informationen

Hydraulic Valve Block fo Civil Aviation

Erhöhung der Baurate für anspruchsvolle Anwendungen durch Laserstrahlformung

(Grünteil-)Dichtevorhersage für das Metal Binder Jetting

Computer-vision-basierte (Grünteil-)Dichtevorhersage für das Metal Binder Jetting, wofür lediglich Prozessbilder notwendig sind, die während des Druckprozess aufgenommen werden. 

ModSeat Projekt

Entdecken Sie, wie wir  in Zusammenarbeit mit AutoFlug das E/A-System eines Helikoptersitzes optimiert haben, indem wir additiv gefertigte Gyroid-Stäbe verwenden, die bei unsanften Landungen Energie absorbieren. 

Would you like to scale your AM part production, but find post-processing too costly?

Reducing cost of L-PBF parts with the right support removal strategies. Fraunhofer IAPT is about to start a research study that will compare different approaches to support removal and offer technology-specific guidelines and designs to reduce the effort and cost of support removal.

  • Study duration: 10 months
  • Scheduled to begin in February 2025
  • Investigation of two materials and five removal strategies

Download Flyer Support Study.pdf

The study will enable you to

  • assess different support removal strategies
  • speed and simplify support structure removal
  • automate the support removal process most effectively
  • optimize support structures for your technologies

Early Bird Special ends in March, 2025 -Contact us for more information!

How do seals and sealing technology benefit from 3D printing with silicone?

When it comes to custom production of seals in small quantities, such as batch sizes of one or prototypes of new seal geometries, creating the necessary tooling can be very costly. Join our feasibility study today to discover whether additively manufactured seals and silicones provide a cost-effective alternative!

  • Three inquiry levels starting from three participants and upwards
  • Study duration: 10 months
  • Scheduled to begin: in Q2 2025

Download Flyer Feasibility Study.pdf 

The study will

  • portray the opportunities and limitations of AM for processing silicones
  • provide an overview of the available technologies and materials
  • align the requirements of sealing technology with the capabilities of 3D printing
  • evaluate the processability of traditional materials from sealing technology
  • the feasibility study will not only explore silicones but also empower sponsors to influence the specific requirements and materials that Fraunhofer IAPT will investigate. 

Join the feasability study now!