Cerâmica (Apr 2024)
Study on the morphological, crystalline, and magnetization effects of Nb2O5 addition via high-energy milling in EUROFER chips
Abstract
Abstract EUROFER is a reduced-activity ferritic-martensitic steel used in the construction of nuclear fusion reactors. Despite its good properties of mechanical strength, corrosion, creep, and radioactive damage, its maximum working temperature is 500 °C due to microstructural changes that occur above this condition. This study aims to investigate the use of niobium pentoxide (Nb2O5) in EUROFER-based alloys through a high-energy milling technique. EUROFER chips were processed in a planetary ball mill with different concentrations of Nb2O5 for 10 h. The results showed a reduction of approximately 32% in the particle size distribution of the milled powders compared to pure EUROFER. The X-ray diffraction patterns revealed a decrease solely in the lattice parameters of pure EUROFER and samples containing 3% Nb2O5. The addition of Nb2O5 also resulted in a reduction in saturation magnetization, and an increase in coercivity and magnetic remanence.
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