In this work we investigate the process of iron nitride (Fe-N) phase formation using 2 at.% Al or 2 at.% Ti as additives. The samples were prepared with a magnetron sputtering technique using different amount of nitrogen during the deposition process. The nitrogen partial pressure (\pn) was varied between 0-50% (rest Argon) and the targets of pure Fe, [Fe+Ti] and [Fe+Al] were sputtered. The addition of small amount of Ti or Al results in improved soft-magnetic properties when sputtered using \pn $\leq$ 10\p. When \pn is increased to 50\p non-magnetic Fe-N phases are formed. We found that iron mononitride (FeN) phases (N at% $\sim$50) are formed with Al or Ti addition at \pn =50% whereas in absence of such addition \eFeN phases (N\pat$\sim$30) are formed. It was found that the overall nitrogen content can be increased significantly with Al or Ti additions. On the basis of obtained result we propose a mechanism describing formation of Fe-N phases Al and Ti additives.
翻译:在这项工作中,我们调查了铁硝化(Fe-N)阶段的形成过程,使用2 at.% Al 或 2 at. Ti 作为添加剂。样本是在沉降过程中使用不同量氮的磁性喷发技术制作的。氮部分压力(pn)介于0-50%(rest Argon)之间,而纯铁、[Fe+Ti]和[Fe+Al]的目标介于50 %之间。在使用\pn $\leq$ 或2 Ti作为添加剂时,添加少量的Ti或Al结果使软磁性特性得到改善。在形成沉积过程中,当\ pn 升至50\ p p 非磁性Fe-N 阶段时,发现铁单亚化(FeN) 阶段(n% $\sim$ 50) 与Al 或Ti+n=50 %之间,而没有添加到\ eFeN 阶段(Npat$\ sim$ 30) 时,发现总体氮成分含量可以显著增加,而我们提议形成铁- AL 和 TIAdrical+s 的基础。
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