Catalog

Improving the quality of magnets made of the Fe-Al-Ni-Co alloy at their workpiece casting

Authors: Golovkin P.A.	Published: 17.05.2023
Published in issue: #5(758)/2023
DOI: 10.18698/0536-1044-2023-5-22-28
Category: Mechanical Engineering and Machine Science \| Chapter: Technology and Equipment for Mechanical and Physico-Technical Processing
Keywords: magnet material, melt overheating, directional crystallization, magnetic properties, microchemical inhomogeneity, stress cracks

Metallographic analysis of the magnet material made from the Fe-Al-Ni-Co made it possible to determine that melt excessive overheating before casting reduced the product target characteristics due to formation of various internal defects. Inaccessibility was shown of high microchemical inhomogeneity and internal stresses that led to formation of cracks in the casting material and destruction of the columnar grains deteriorating the finished magnets performance.

References

[1] GOST 25639–83. Magnity litye postoyannye. Tekhnicheskie usloviya [State standard GOST 25639–83. Casting permanent magnets. Specifications]. Moscow, Izdatelstvo standartov Publ., 1987. 35 p. (In Russ.).

[2] GOST 17809–72. Materialy magnitotverdye litye. Marki [State standard GOST 17809–72. Casting hard magnetic materials. Marks]. Moscow, Izdatelstvo standartov Publ., 2001. 6 p. (In Russ.).

[3] GOST 8.268–77. Metodika vypolneniya izmereniy pri opredelenii staticheskikh magnitnykh kharakteristik magnitotverdykh materialov [State standard GOST 8.268–77. The method of carrying out measurements for determination of static magnetic characteristics of hard magnetic materials]. Moscow, Izdatelstvo standartov Publ., 1978. 25 p. (In Russ.).

[4] Pyatin Yu.M., ed. Postoyannye magnity [Permanent magnets]. Moscow, Energiya Publ., 1976. 376 p. (In Russ.).

[5] Tekhnicheskiy otchet po OKR «NK» [Technical report on design and “NK” development work]. P/ya A-1903, 1975. 30 p. (In Russ.).

[6] Tekhnicheskiy otchet po NIR «Legirovanie splavov YuNDK24, YuNDK25BA i YuNDK35T5 redkozemelnymi elementami s tselyu dalneyshego povysheniya ikh magnitnykh parametrov i mekhanicheskikh svoystv» [Technical report on research project “YuNDK24, YuNDK25BA and YuNDK35T5 alloys doping by rare-earth elements in order to improve their magnete parameters and mechanical properties”]. Pya R-6927, 1970. 47 p. (In Russ.).

[7] Jesmont J.J., Weimersheimeir S. Method of making permanent magnets. Patent US 3226266A. Appl. 07.02.1962, publ. 28.12.1965. (In Russ.).

[8] Pikunov M.V., Desipri A.I. Metallovedenie [Metallurgical science]. Moscow, Metallurgiya Publ., 1980. 256 p. (In Russ.).

[9] Cherednichenko I.V., Bondarenko Yu.A., Kolodyazhnyy M.Yu. et al. The structure and properties of permanent magnetic alloys UNDK25BA, manufacturing by directional solidification methods with liquid metal cooler. Trudy VIAM [Proceedings of VIAM], 2017, no. 11, pp. 29–36.

[10] Sein V.A., Buryakov I.N., Drozdov S.S. et al. Novel casting mold for obtaining columnar crystal structure in magnets from alloys of type YuNDK(T). MiTOM, 2018, no. 8, pp. 60–64. (In Russ.). (Eng. version: Met. Sci. Heat Treat., 2018, vol. 60, no. 7-8, pp. 548–552, doi: https://doi.org/10.1007/s11041-018-0317-z)

[11] Kamenskaya N.I., Sein V.A., Zvereva M.I. A study of the causes of failure of permanent magnets from cast hard magnetic alloys. MiTOM, 2017, no. 4, pp. 37–41. (In Russ.). (Eng. version: Met. Sci. Heat Treat., 2017, vol. 59, no. 3–4, pp. 232–236.