Tailoring magnetic properties in 60Fe-27Cr-10Co-2Mo-1Ti magnetic alloy by Ni and Hf additive
暂无分享,去创建一个
[1] S. Tao,et al. Effects of Sm on structural, textural and magnetic properties of Fe–28Cr–20Co–3Mo–2V–2Ti hard magnetic alloy , 2020 .
[2] Xiaohong Xu,et al. Enhancement of magnetic and microstructural properties in Fe-Cr-Co-Mo-V-Zr-Y permanent magnetic alloy , 2019, Journal of Magnetism and Magnetic Materials.
[3] Inam Khan,et al. Phase, microstructure and magnetic properties of 45.5Fe-28Cr-20Co-3Mo-1.5Ti-2Nb permanent magnet , 2019, Journal of Magnetism and Magnetic Materials.
[4] V. Yusupov,et al. Magnetic Hysteresis and Mechanical Properties of Hard Magnetic Fe–27Cr–15Co–2Mo–Si–Ti–V Alloy , 2018, Inorganic Materials: Applied Research.
[5] N. Heo,et al. Development of Cube + Goss Texture in Electrical Steels and their Magnetic Properties , 2018 .
[6] V. Yusupov,et al. Magnetic properties of powder hard magnetic Fe–27Cr–10Co–0.5Mo and Fe–27Cr–10Co–2Mo alloys , 2018 .
[7] Ce Zhang,et al. Structure and magnetic properties of Alnico ribbons , 2018 .
[8] Xu-hao Han,et al. Microstructure and phase transition of Fe-24Cr-12Co-1.5Si ribbons , 2018 .
[9] V. Menushenkov,et al. Effect of Secondary Decomposition on Coercivity of Fe-Co-Cr Alloys with 15% Co , 2015 .
[10] David J. Smith,et al. Architecture and magnetism of alnico , 2014 .
[11] V. Menushenkov,et al. Heat Treatment and Magnetic Properties of Cold-Deformed Alloy 30Kh15K2MT , 2014, Metal Science and Heat Treatment.
[12] S. Wells. Effect Of Hafnium-Incorporation On The Microstructure And Dielectric Properties Of Cobalt Ferrite Ceramics , 2013 .
[13] R. McCallum,et al. Advances in Characterization of Non-Rare-Earth Permanent Magnets: Exploring Commercial Alnico Grades 5–7 and 9 , 2013 .
[14] M. Yan,et al. Evolution of phase, texture, microstructure and magnetic properties of Fe–Cr–Co–Mo–Ti permanent magnets , 2012 .
[15] Matthew J. Kramer,et al. Prospects for Non-Rare Earth Permanent Magnets for Traction Motors and Generators , 2012 .
[16] L. Zhang,et al. Textures of high-strength and low-expansion Fe-Ni alloy wires during cold-drawing processes , 2009 .
[17] A. Haq,et al. Effect of Mo addition on magnetic properties of Fe–28Cr–15Co hard magnets , 2002 .
[18] S. Liou,et al. Magnetic intergranular interaction in nanocomposite CoxPt100-x:C thin films , 2002 .
[19] Tim Holland,et al. Unit cell refinement from powder diffraction data: the use of regression diagnostics , 1997, Mineralogical Magazine.
[20] Y. H. Chang,et al. The magnetic properties and microstructures of Fe-Cr-Co thin films obtained by ion beam sputtering , 1996 .
[21] Anil K. Jain,et al. Texture Analysis , 2018, Handbook of Image Processing and Computer Vision.
[22] R. Chantrell,et al. The characterisation of interaction effects in fine particle systems , 1993 .
[23] Karl J. Strnat,et al. Rare earth-cobalt permanent magnets , 1991 .
[24] S. Sugimoto,et al. The effect of titanium on microstructure and magnetic properties of Fe‐Cr‐Co hard magnetic materials , 1985 .
[25] M. Okada,et al. Single crystal magnets , 1983 .
[26] Martin L. Green,et al. Low cobalt Cr‐Co‐Fe permanent magnet alloys (invited) , 1981 .
[27] G. Thomas,et al. Phase diagram of Fe-Cr-Co permanent magnet system , 1977 .
[28] M. Homma,et al. New Ductile Permanent Magnet of Fe‐Cr‐Co System , 1972 .
[29] O. Henkel. Remanenzverhalten und Wechselwirkungen in hartmagnetischen Teilchenkollektiven , 1964, December 1.
[30] L. Schulz. A Direct Method of Determining Preferred Orientation of a Flat Reflection Sample Using a Geiger Counter X-Ray Spectrometer , 1949 .
[31] H. Rinn,et al. Chemical Analysis by X-Ray Diffraction , 1938 .
[32] T. Vágner,et al. Strengthening of Fe-Cr alloys upon spinodal decomposition in the process of treatment for a high-coercivity state , 1999 .
[33] H. Satoh,et al. Evolution Process of 〈100〉 Texture in Fe–Cr–Co–Mo Permanent Magnets , 1991 .
[34] K. Strnat. Chapter 2 Rare earth-cobalt permanent magnets , 1988 .