Analysis of spontaneous magnetizing processes in clean iron crystals
DOI:
https://doi.org/10.15587/2312-8372.2013.19570Keywords:
spontaneous magnetize, crystals of clean iron, magnetic moments of atoms, crystalline grate defectsAbstract
This article shows the results of analysis of theoretical and experimental data, fixed in basis of metals magnetic memory method. A research object is an elementary cell of crystalline grate of clean iron. Its central atoms seem to be stopped up by the eight electrons "neighbours", occupying the corners of cube and formatting a simple cube grate. The uncompensated magnetic moments which are oriented in space strictly definitely are created in such way. So there is the spontaneous magnetizing of crystals of clean iron. Also it is shown in the article the role of effect magnetostriction in magnetic domains formation, i.e. the change of the orientation of magnetic moments and formation of new domains while ferromagnetic is crystallizing. The tasks of further deep analysis of microstructure of clean iron and application of this knowledge on the real ferromagnetic crystals are given.
References
- Малахов, О. В. Перспективы применения метода магнитной памяти металлов к диагностике преддефектного состояния напряженных металлоконсирукций [Текст] / О. В. Малахов, Д. С. Девяткин, А. В. Кочергин // Восточно-Европейский журнал передовых технологий. – 2013. – № 4/ 5(64). – С. 20-24.
- Li-hong Dong. The Application of metal magnetic memory testing to the field of the life estimation of remanufacturing blanks [Text] / Li-hong Dong, Bin-shi Xu, Shi-yun Dong, Dan Wang.; National Plant Engineering R&D Center. – Beijing, 2006. – Р. 21-26.
- Roskosz, M. The metal magnetic memory method in the diagnostics of power machinery component [Text] / M. Roskosz, A. Rusin, J. Kotowicz // Journal of achievements in materials and manufacturing engineering. – 2010. – Issue 1, Vol. 43. – Р. 362-370.
- Roskosz, M. Metal magnetic memory testing of welded joints of ferritic and austenitic steels [Text] / M. Roskosz // NDE for safety: Defectoskopie. – 2010. – P. 305-310.
- Лившиц, Б. Г. Физические свойства металлов и сплавов [Текст]/ Б. Г. Лившиц, В. С. Крапошин. – М.: Металлургия, 1980. – С. 320.
- Киттель, Ч. Элементарная физика твердого тела [Текст] / Ч. Киттель. – М.: Наука, 1969. – С. 208.
- Хоникомб, Р. Пластическая деформация металлов [Текст] / Р. Хоникомб; под ред. Б. Я. Любова. – М.: Мир, 1972. – С. 408.
- Тикадзуми, С. Физика ферромагнетизма [Текст] / С. Тикадзуми; под ред. Г. А. Смоленского, Р. В. Писарева // Магнитные свойства вещества. – Том 1. – М.: Мир, 1983. – С. 304.
- Тикадзуми, С. Физика ферромагнетизма [Текст] / С. Тикадзуми; под ред. Р. В. Писарева // Магнитные характеристики и практические применения. – Том 2. – М.: Мир, 1987. – С. 416.
- Власов, В. Т. Физические основы метода магнитной памяти металла [Текст] / В. Т. Власов, А. А. Дубов. – М.: ЗАО "Тиссо", 2004. – С. 42-113.
- Malahov, О. V., Devyatkin, D. S., Kochergin, A. V. (2013). Prospects of applying metal magnetic memory method to diagnosis of metals. Eastern-European Journal Of Enterprise Technologies, 4(5(64)), 20-24.
- Li-hong Dong, Bin-shi Xu, Shi-yun Dong, Dan Wang (2006). The Application of metal magnetic memory testing to the field of the life estimation of remanufacturing blanks. National Plant Engineering R&D Center, Beijing, 21-26.
- Roskosz, M., Rusin, A., Kotowicz, J. (2010). The metal magnetic memory method in the diagnostics of power machinery component. Journal of achievements in materials and manufacturing engineering, Issue 1, vol. 43, 362-370.
- Roskosz, M. (2010). Metal magnetic memory testing of welded joints of ferritic and austenitic steels. NDE for safety: Defectoskopie, 305-310.
- Liphshits, B. G., Kraposhin, V. S. (1980). Fizicheskie svoystva metallov i splavov. Moskva: Metallurgiy, 320.
- Kittel, Ch. (1969). Elementarnaya fizika tverdogo tela. Moskva: Nauka, 208.
- Honikomb, R. In: Lyubov, B. Ya. (1972). Plasticheskaya deformatsiya metallov. Moskva: Mir, 408.
- Tikadzumi, S.; In: Smolenskiy, G. А., Pisarev, R. V. (1983). Fizika ferromagnetizma. Magnitnye svoystva veschestva, vol. 1. Moskva: Mir, 304.
- Tikadzumi, S.; In: Pisareva, R. V. (1987). Fizika ferromagnetizma. Magnitnye harakteristiki i prakticheskie primeneniya, vol. 2. Moskva: Mir, 416.
- Vlasov, V. Т., Dubov, А. А. (2004). Fizicheskie osnovy metoda magnitnoy pamyati metalla. Moskva: ZАО "Tisso", 42-113.
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