MBN offers customized material solutions tailored to customer specifications, supported by an in-house materials development team and the ability to respond to on-demand requirements.
Our flexible production system enables fast scale-up from small batches to tens of kilograms, ensuring a smooth transition from prototyping to industrial production.
Material development is supported by a fully equipped laboratory for physical, chemical, and morphological characterization and a prototyping department. Whether you require a unique alloy, nanostrutured powder, or ceramic–metal composite, MBN combines deep technical expertise with processing flexibility to meet your specific application needs.
Push performance limits with WCrY and Eurofer97-ODS—engineered for radiation resistance, thermal stability, and oxidation protection in nuclear and extreme energy environments.
Rethink wear resistance with eco-designed hardmetals—tungsten- and cobalt-free systems combining hard phases and tough matrices for sustainable high-performance tooling.
Unleash custom magnetic behavior—from Curie-tuned nanoparticles for biomedical precision to REE-free GAP magnets driving efficient, sustainable motors and actuators.
Harness the strength of high-entropy design—multi-element hardmetals and alloys for coatings and components facing wear, heat, and mechanical stress.
Accelerate hydrogen cycling with nanostructured Mg and tailored hydrides—enhanced grain boundaries and catalysts enable fast, efficient, and reversible solid-state storage.
As part of the START project, MBN has developed a high-performance n-type and p-type thermoelectric
Elevate your designs with advanced Ti and Al alloys—combining structural strength with weight reduction for aerospace, transport, and energy applications.
Enhance formulations with smart additives and complex master alloys—precisely engineered for microstructure control, improved processing, and tailored functional properties.
Simplify nanotechnology integration—pre-formulated dispersions and aggregates deliver nanoparticles safely and uniformly into polymers, coatings, and advanced materials systems.