Forging the Unbreakable Magnet at EPoS Technologies in Switzerland
Electro-sinter-forging isn’t a term that comes up often in magnet manufacturing. But at EPoS Technologies, tucked away in the Swiss Alps, it’s the heart of a small revolution in how magnets are made. Founded by Alessandro Fais, materials engineer and PhD in metallurgical engineering, the company has developed a new family of materials that blend the strength of metals with the magnetic punch of rare-earth compounds.
Purer Copper = More Powerful Electromagnets: Aeramine Commercializes Ultra-High Purity Recycling & Production Process
While not intrinsically magnetic, copper is critical for the performance of many magnetic assemblies and products. Its excellent electrical conductivity, especially in exceptionally pure forms, make it prized for creating powerful magnetic fields needed for both superconducting and resistive electromagnets.
Max Planck Institute for Plasma Physics (IPP) Develops Superconducting Coil Models for Future Fusion Power Plants
Stellarators are among the most promising designs for future fusion energy systems. Their main strength lies in the ability to confine plasma at temperatures of many millions of degrees Celsius in a stable and steady state – made possible by a highly complex magnetic field.
From AlNiCo Roots to NdFeB Ambitions; Magnetic Society’s Community Flux has No Saturation in Sight
Magnetics powers the modern world – from energy generation to advanced transport and cutting-edge research. For 40 years, the Magnetics Society has connected innovators, researchers, and businesses worldwide, helping them turn ideas into breakthroughs. Today, we’re an international network driving collaboration and growth across industries and academia.
