Periodic Reporting for period 2 - INAPEM (International Network on Advanced high energy Permanent Magnets)
Periodo di rendicontazione: 2018-01-01 al 2018-12-31
Results will be widely disseminated through publications, workshops, post-graduate courses to train new researchers, a dedicated webpage, and visits to companies working in the area. In that way, we will perform an important role in technology transfer between the most advanced hard and soft magnetic materials design and characterisation methods for the development of permanent magnets.
The influence of the microstructure and temperature on the coercivity and maximum energy product were theoretically studied. Promising candidate phases for rare-earth free permanent magnets were studied with respect to interfaces and grain boundaries.
The microstructure of a magnet is essential for developing coercivity. The influence of the microstructure on coercivity, remanence, and energy density product was studied . Using experimental optimization tools, in order to maximize the coercive field or the energy density product. Structure optimization was performed for possible candidate phases.
A full structural, thermodynamic and magnetic characterization has been carried out in samples produced in WP3. Different characterization techniques provide information complementary to each other. The experimental results are compared with the predictions obtained by theoretical groups, so that they can adjust the models and computing methods with our input, to get a better understanding of the real behavior, and improve further predictions.
In the following months, we expect to produce bonded magnets and also Mn-Al-C magnets. The magnetic properties of these magnets will be measured and we expect to obtain results that would be interesting for industries to produce and use our magnets. If successful results are obtained for these magnets we would have achieved a large reduction of the RE-content in PM and so CRM-content.