EBAM 2025 programme released
January 10, 2025

The Chair of Materials Science and Engineering for Metals (WTM) and the Friedrich-Alexander-Universität Erlangen-Nürnberg Competence Center Engineering of Advanced Materials (FAU EAM), have released the programme for the 5th International Conference on Electron Beam Additive Manufacturing (EBAM 2025).
The EBAM 2025 technical programme includes the following presentations:
- Refractory metals
- KEYNOTE: Processing of Refractory Metals Through Electron Beam Melting
- Challenges for realization of dense, crack-free pure tungsten components in electron beam powder bed fusion
- Densification and microstructural engineering of pure tungsten in electron beam powder bed fusion
- High power spot melting of pure tungsten – an enabler for high productivity in manufacturing dense and crack-free tungsten parts
- Materials
- KEYNOTE: Efforts to reduce thermal stress, surface roughness, and powder consumption in powder bed melting additive manufacturing technology
- Microtextured Composites of Pure Molybdenum through Advanced Process Control
- Microstructure and mechanical behavior of a NiAl-CrMo eutectic in-situ composite processed via electron beam powder bed fusion
- Machinable and high-temperature strong Nb-silicide Intermetallic Composites by Electron Beam Powder Bed Fusion
- Technology 1
- Wire Electron Beam Technology: The key to resource efficiency and scalable additive manufacturing
- Optimization of processing strategies in WEBAM with simulation
- Design and Development of Electron Beam Hybrid Manufacturing Using Multi-wire Cladding
- The Variety of Technological Opportunities with Shaped Electron Beams
- Process monitoring
- KEYNOTE: Real-time tracking of electron beam additive manufacturing using synchrotron x-ray techniques
- In-situ synchrotron radiography of melt pool dynamics in electron beam powder bed fusion
- In-Melt Electron Analysis (IMEA) Approach for Process Optimization and Quality Control in EB-PBF
- In-situ Monitoring of Melt Pool Dynamics During Electron Beam Melting and Sintering
- Exploring the Potential of a Multi-Detector Electron-Optical System in Electron Beam Powder Bed Fusion
- Technology 2
- Electron Beam Powder Bed Fusion for Mass Production
- NeuBeam E-PBF enabled Build Strategies
- Increased Productivity in EBM
- EBM Point Melt – A new level of serial production for titanium components in the medical industry, as well as an enabler for high-temperature materials production in the aerospace industry
- PBF-EB of wear resistant FeCr-10V for resource efficient tools
- Iron & copper
- KEYNOTE: Carbide size control using EBM process parameters and extreme layer thickness variations in high-speed steels and cemented carbide
- Microstructural and mechanical properties of high-alloy austenitic CrMnNi steels with different nickel contents produced by electron beam melting
- Effect of sulphur addition on the processability of a metastable stainless steel X2CrMnNi 16-7-4.5 in PBF-EB/M
- Powder bed fusion of pure copper using an electron beam – A comparative study on the material properties obtained using vector- and spot-based exposure
- Role of high oxygen content on the process-structure-property relationship of copper produced in electron beam powder bed fusion
- Process
- KEYNOTE: High-fidelity modeling of multi-material additive manufacturing: from particle reinforced composites to in-situ alloying
- Part-Scale Thermal Simulation of Electron Beam Powder Bed Fusion
- In-situ monitoring of heat propagations in electron beam powder bed fusion
- The investigation on the evolution of smoking phenomenon in electron beam powder bed fusion process
- Correlating Outgassing and Smoke Phenomenon in Electron Beam Powder Bed Fusion
- Nickel
- KEYNOTE: Ultrasonic fatigue testing of additively manufactured high-temperature materials at RT and elevated temperatures
- The study of the relationship between the melting strategy and the microstructure formation during electron beam powder bed fusion process
- A numerical study of the morphology and microstructure of thin walls manufactured using PBF depending on process and material parameters
- Microstructural analyses and defects investigation of Inconel 738 processed by electron beam powder bed fusion (EB-PBF)
- 3D Point Patterns for Material Design in Electron Beam Powder Bed Fusion
- Titanium
- KEYNOTE: EBM TiAl Blades Production at Avio Aero – An Overview
- Influence of different additive B manufacturing processes on the mechanical properties of Ti-6Al-4V
- Crystal Plasticity Finite Element Method virtual laboratory for PBF-EB microstructural properties
- Study of microstructure and mechanical properties of metastable beta titanium alloy manipulation by electron beam powder bed fusion
- Graph-based Spot Sequences in Electron Beam Powder Bed Fusion
- Process Chain
- KEYNOTE: Post-processing of metal additive manufactured components: powder removal and surface finishing of internal channels and external surfaces through chemically-assisted technologies
- Evaluation of Infrared Thermography for the Defects Detection in Components manufactured by powder bed fusion with electron beam
- In-situ powder alloying via Powder2Powder ultrasonic atomization tailored for electron beam melting
- Sustainability in Metal AM: The EBuildn850 and its Role in Metal Powder Recycling
The event will also host poster and technology exhibitions, as well as networking events. The full programme is available here.
EBAM 2025 will take place in Erlangen, Germany, from February 26-28.