National University of Science and Technology “MISIS” | |
Название | Functional properties of fabric magnetic materials with strontium ferrite particle based fillers |
DOI | 10.17580/tsm.2015.03.06 |
Автор | Tarasov V. P., Ignatov A. S., Dubynina L. V. |
Информация об авторе | National University of Science and Technology “MISiS', Moscow, Russia: V. P. Tarasov, Head of a Chair of Non-Ferrous Metals and Gold, e-mail: vptar@misis.ru A. S. Ignatov, Assistant of a Chair of Non-Ferrous Metals and Gold L. V. Dubynina, Assistant Professor of a Chair of Powder Metallurgy and Functional Coatings |
Реферат | Decreasing of structural material-composing formations leads to the most significant change of magnetic properties of materials to nanosizes. This type of materials is different from the other types due to the several reasons. In the first place, the nature of observed changes of properties during the grinding of the product-forming particles was defined for this type of materials in the last century. In the second place, during the transfer to nanosize formations, the properties of these materials are significantly changed. Change of structural formations in magnetic materials is followed by certain phenomena: change of exchange interaction of electrons and material magnetization mechanisms with the change of coercive force; appearance of various states of material (ferromagnetic, paramagnetic and anti-ferromagnetic). Researches for the purposeful control of magnetic properties of materials and use of these results for manufacturing of various functionality products is of a great scientific and practical interest. This article shows the results of researches of the basic magnetic and mechanical properties of fabric magnetic materials, containing various phasesfillers on the basis of strontium ferrite particles. There was carried out the comparison of fabric magnetic materials on aramid and cotton base by the size of coercive force, residual magnetic induction, elasticity coefficient, fracture stress, tensile extension and a range of other characteristics, reflecting the parameters of researched materials.\ This article was prepared within the Agreement between the National University of Science and Technology “MISiS” and All-Russian Research Institute of Chemical Technologies (No. 1/2012 of November 20, 2012), realized with the financial support according to the Decree of the Government of Russian Federation of April 09, 2010 (No.218) «About the measures of the State support of development of cooperation of Russian universities and organizations, realizing the complex projects on the creation of high-technological production». |
Ключевые слова | Hard magnetic materials, hysteresis, fabric, strontium ferrite, magnetic properties, fabric magnetic materials |
Библиографический список | 1. Vorokh A. S., Rempel A. A. Atomnaya struktura nanochastits sulfida kadmiya (Atomic structure of cadmium sulfide nanoparticles). Fizika tverdogo tela = Physics of the Solid State. 2007. Vol. 49, Iss. 1. pp. 143–148. 2. Warner J. H., Djouahra S., Tilley R. D. Controlled formation of 3D CdS nanocrystal superlattices in solution. Nanotechnology. 2006. Vol. 17, No. 12. pp. 3035–3038. 3. Popovich A. A., Reva V. P., Vasilenko V. N., Popovich V. A., Belous O. A. Mekhanokhimicheskiy metod polucheniya poroshkov tugoplavkikh soedineniy (Mechanochemical method of obtaining of of refractory compound powders). Poroshkovaya metallurgiya = Powder metallurgy. 1993. No. 2. pp. 37–43. 4. Boldyrev V. V. Mekhanokhimiya i mekhanicheskaya aktivatsiya tverdykh veshchestv (Mechanochemistry and mechanical activation of solid substances). Uspekhi khimii = Russian Chemical Reviews. 2006. Vol. 75, No. 3. pp. 203–216. 5. Butyagin P. Yu., Streletskiy A. S. Kinetika i energeticheskiy balans v mekhanokhimicheskikh prevrashcheniyakh (Kinetics and energetic balance in mechanochemical transformations). Fizika tverdogo tela = Physics of the Solid State. 2005. Vol. 47, No. 5. pp. 830–836. 6. Rempel A. A. Nanotekhnologii, svoystva i primenenie nanostrukturirovannykh materialov (Nanotechnologies, properties and application of nanostructured materials). Uspekhi khimii = Russian Chemical Reviews. 2007. Vol. 76, No. 5. pp. 474–500. 7. Ozerin A. N. Nanoporoshki v “Rossiyskikh nanotekhnologiyakh” (Nanopowders in “Russian nanotechnologies”). Rossiyskie nanotekhnologii = Nanotechnologies in Russia. 2009. Vol. 4, No. 1/2. p. 9. 8. Storozhenko P. A. Nanoporoshki — tekhnologiya segodnyashnego dnya (Nanopowders are the nowadays technology). Rossiyskie nanotekhnologii = Nanotechnologies in Russia. 2009. Vol. 4, No. 1/2. pp. 10–15. 9. Izgorodin A. K., Zryukin V. V., Konoplev Yu. V. Rol poverkhnostnoy zony volokon v tekstilnoy tekhnologii (Role of surface zone of fibres in textile technology). Doklady IX Mezhdunarodnogo seminara “SmarTex–2006” (Reports of the IX International Seminar “SmarTex–2006”). Ivanovo : Ivanovo State Technical Academy, 2006. pp. 8–19. |
Language of full-text | русский |
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