Sustainability is not just a responsibility, it’s also a strategic business choice. By using resources wisely, reducing our environmental impact and supporting our communities, we build trust and strengthen our magnet solutions for creating long-term value.
Hot formed NdFeB magnet technology supports sustainability by combining high magnetic performance with a more efficient manufacturing process. Compared to conventional sintered NdFeB magnets, hot forming reduce processing steps and material waste.
Due to lower process temperature and less process time, the energy consumption is much less compared to conventional sintered NdFeB and therefore also a substantial lower CO₂ footprint is confirmed.
Rare earth supply chain
Rare earth elements are used at the heart of modern innovation. From electric vehicles to advanced electronics like for instance robotics, these materials enable the technologies shaping a low-carbon and digital future.
Today the global rare earth supply chain still remains heavily concentrated in China which is creating economic, geopolitical and sustainability risks. Having an independent and diversified rare earth supply chain has therefore become a strategic priority for industries and governments worldwide.
An full independent supply chain of rare earth material is now already created and available and this improves flexibility, ensures continuity and gives us a greater control over quality, costs and long-term planning. This independent rare earth supply chain is more than a risk mitigation strategy. It is for sure a competitive advantage.
We reduce your environmental footprint with Japanese magnet technology
Hot formed NdFeB magnet technology supports sustainability in a substantial better way when compared to conventional sintered NdFeB magnet technology.
Hot formed NdFeB magnet technology combines a high magnetic performance with a much more efficient manufacturing process.
Compared to conventional sintered NdFeB magnets, hot forming reduce processing steps and material waste.
Due to the lower process temperature and less process time (because there is no sintering process needed), the energy consumption is much less compared to conventional sintered NdFeB and therefore also a substantial lower CO₂ footprint is confirmed.
25% LESS CO2
COMPARED TO SINTERED
Learn more about our permanent magnet technologies
Our advanced permanent magnet technologies offer solutions for a wide range of performance requirements. Hot formed magnet technology provides high strength and efficiency. Plastic bonded magnet technology offers design flexibility and consistent quality for complex shapes. SmCo magnet technology delivers stable performance in high-temperature and demanding environments. Together these technologies support reliable, efficient and innovative applications across modern industries.
