Your search keyword '"DISTRIBUTION OF MAGNETIZATION"' showing total 8 results

1. Temperature of the Formation of a Protective Polymer Coating and the Magnetic Properties of Cobalt-Based Amorphous Alloys.

Author

Skulkina, N. A., Ivanov, O. A., Mazeeva, A. K., Kuznetsov, P. A., Chekis, V. I., and Denisov, N. D.

Abstract

The influence of the polymer coating used in the manufacture of magnetic shields and of the conditions of its formation on the distribution of the magnetization and on the magnetic properties of shields has been studied. Samples of a ribbon of the Co-based soft-magnetic amorphous alloy AMAG-172 (Co–Ni–Fe–Cr–Mn–Si–B) with a saturation magnetostriction close to zero were used in the study. The coating was deposited in the temperature range of 90–130°C on the ribbon subjected to heat treatments in air that form a state with a negative saturation magnetostriction. The change of magnetic characteristics was investigated over a two year period. It has been shown that there is a temperature range in which a change in the sign of the saturation magnetostriction occurs upon the formation of the coating. This change is due to a change in the structural-phase state of the ribbon because of the diffusion processes that occur upon heating. The formation of the coating leads to a reduction in the maximum magnetic permeability; nevertheless, over a two year period, no decrease in μmax is observed in the ribbon with a coating formed in the 110–130°C temperature range. [ABSTRACT FROM AUTHOR]

Published

2019

2. n-vicinity Method and 1D Ising Model.

Author

Kryzhanovsky, B. V. and Litinskii, L. B.

Abstract

Abstract: For a 1D Ising model, we obtained an exact expression for the spectral density in an n-vicinity of the ground state and explained why our n-vicinity method with the Gaussian approximation of the spectral density did not applicable in this case. We also found an analytical expression for the distribution of magnetization at an arbitrary temperature. When the temperature tends to zero the distribution of magnetization gradually flattens. [ABSTRACT FROM AUTHOR]

Published

2018

3. Surface condition and magnetic properties of an amorphous Co-based alloy

Author

Nekrasov, E. S., Скулкина, Н. А., Skulkina, N. A., УрФУ. Институт естественных наук и математики, and Кафедра магнетизма и магнитных наноматериалов

Subjects

MAGNETIC PERMEABILITY, SATURATION MAGNETOSTRICTION, МАГИСТЕРСКАЯ ДИССЕРТАЦИЯ, ОБРАБОТКА АЦЕТОНОМ, MASTER'S THESIS, МАГНИТОСТРИКЦИЯ НАСЫЩЕНИЯ, ТЕРМООБРАБОТКА, МАГНИТНАЯ ПРОНИЦАЕМОСТЬ, ОБРАБОТКА ВОДОЙ, WATER TREATMENT, РАСПРЕДЕЛЕНИЕ НАМАГНИЧЕННОСТИ, DISTRIBUTION OF MAGNETIZATION, HEAT TREATMENT, AMORPHOUS SOFT MAGNETIC ALLOYS, ACETONE TREATMENT, АМОРФНЫЕ МАГНИТОМЯГКИЕ СПЛАВЫ

Abstract

В работе представлены результаты исследования влияния состояния поверхности ленты на распределение намагниченности и магнитную проницаемость аморфного магнитомягкого сплава Co–Ni–Fe–Cr–Mn–Si–B, а также неоднородности магнитных характеристик в исходном (закаленном) состоянии, Такие исследования имеют важное значение для оптимизации магнитных характеристик и способствуют повышению качества изделий из этого сплава. Состояние поверхности ленты изменяли при помощи термообработок на воздухе в интервале температур 90–380 оС, обработкой водой и ацетоном, формированием полимерного покрытия. Исследования показали, что ленты аморфного сплава Co–Ni–Fe–Cr–Mn–Si–B в закаленном состоянии обладают существенной неоднородностью магнитных характеристик, которая носит закономерный характер и может быть связана с технологией изготовления ленты. Обработка водой приводит к окислению и гидрированию поверхности ленты и ее влияние зависит от знака константы магнитострикции (λs). В состоянии с λs0 вызывает уменьшение объема доменов с ортогональной намагниченностью и остроты магнитной текстуры. Обработка ацетоном вследствие его окисления и гидрирования содержащимися в поверхности ионами водорода и кислорода оказывает влияние на распределение намагниченности в ленте противоположное воздействию воды, которое также зависит от знака константы магнитострикции. Увеличение длительности обработки ацетоном приводит к усилению ее влияния на изменение объема доменов с ортогональной намагниченностью и ослаблению влияния на перераспределение намагниченности в плоскости ленты. Низкотемпературный отжиг в интервале температур 90 –130оС не способствует изменению максимальной магнитной проницаемости, объема доменов с ортогональной намагниченностью и знака λs, но способствует перераспределению намагниченности в плоскости ленты в результате в результате взаимодействия с атмосферным паром. Наблюдаемое сильное уменьшение максимальной магнитной проницаемости при температурах выше 180 оС связано с ростом объема доменов с ортогональной намагниченностью и снижением остроты магнитной текстуры в плоскости ленты. При 250оС обнаружено формирование поперечной магнитной анизотропии. Полимерное покрытие, формируемое на ленте в закаленном состоянии при 90 –130оС, способствует повышению максимальной магнитной проницаемости и уменьшению объема доменов с ортогональной намагниченностью во всем интервале температур. Полученные результаты находят объяснение в рамках влияния анизотропных напряжений, индуцируемых в ленте в результате взаимодействия ее поверхности с химически активными средами, магнитоактивным полимерным покрытием и анизотропной поверхностной кристаллизацией. The paper presents the results of the influence of the ribbon surface state on the magnetization distribution and magnetic permeability of amorphous magnetically soft Co-Ni-Fe-Cr-Mn-Si-B alloy, as well as heterogeneity of magnetic characteristics in the initial (as-quenched) state. The state of the ribbon surface was changed by heat treatment in the air in the temperature range 90-380oC, treatment with water and acetone, formation of a polymer coating. The studies showed that the Co-Ni-Fe-Cr-Mn-Si-B amorphous alloy ribbons in the as-quenched state have a significant heterogeneity of magnetic characteristics, which has a natural character and can be associated with the tape manufacturing technology. The water treatment leads to oxidation and hydrogenation of the strip surface and its influence depends on the sign of the magnetostriction constant (λs). In the state with λs0 the volume of domains with orthogonal magnetization and the sharpness of the magnetic texture decrease. Treatment with acetone due to its oxidation and hydrogenation by hydrogen and oxygen ions contained in the surface affects the magnetization distribution in the tape opposite to that of water, which also depends on the sign of the magnetostriction constant. Increasing the duration of treatment with acetone leads to increasing its effect on the change in the volume of domains with orthogonal magnetization and to a weaker effect on the redistribution of magnetization in the tape plane. Low-temperature annealing in the temperature range 90 - 130oC does not contribute to changes in the maximum magnetic permeability, the volume of domains with orthogonal magnetization and the sign of λs but contributes to the redistribution of magnetization in the tape plane because of interaction with atmospheric vapor. The observed strong decrease in the maximum magnetic permeability at temperatures above 180oC is associated with an increase in the volume of domains with orthogonal magnetization and a decrease in the sharpness of the magnetic texture in the tape plane. The formation of transverse magnetic anisotropy was detected at 250oC. The polymer coating formed on the tape in the quenched state at 90 - 130oC increases the maximum magnetic permeability and reduces the volume of domains with orthogonal magnetization throughout the temperature range. The obtained results find an explanation in the influence of anisotropic stresses induced in the tape because of interaction of its surface with chemically active media, magnetically active polymer coating and anisotropic surface crystallization.

Published

2022

4. Mechanisms of the formation of magnetic characteristics of a cobalt-based amorphous magnetically soft alloy under heat treatment in air.

Author

Skulkina, N., Ivanov, O., Stepanova, E., Shubina, L., Kuznetsov, P., and Mazeeva, A.

Abstract

Physical causes of the formation of magnetic characteristics of cobalt-based alloys with a near to zero saturation magnetostriction under heat treatment in air have been studied using the Co-Fe-Ni-Cr-Si-B amorphous magnetically soft alloy as an example. The results of the study have shown the possibility of using the vapor treatment of surfaces of ribbons made of amorphous magnetically soft alloys to determine the sign of magnetostriction. The dependence of the sign of magnetostriction on the structural state of a ribbon, which is produced by the heat treatment, has been experimentally found. It has been established that physical causes of the formation of magnetic characteristics of the cobalt-based alloys are the same as those for iron-based alloys. Changes in the magnetic characteristics after annealing result from the relaxation of quenchinginduced internal stresses, as well as from the effect of stresses induced by hydrogen and oxygen atoms incorporated into the surface of the ribbon in the course of its interaction with water vapor in air and by the formation of an amorphous-crystalline surface layer. [ABSTRACT FROM AUTHOR]

Published

2015

5. Interaction of the surfaces of ribbons of amorphous magnetically soft alloys with vapor at various stages of heat treatment.

Author

Skulkina, N., Ivanov, O., Pavlova, I., and Minina, O.

Abstract

The effect of heat treatment in air atmosphere combined with water vapor on the distribution of magnetization and on magnetic characteristics has been studied based on the example of a rapidly quenched amorphous magnetically soft FeNiSiB alloy, which possesses a positive saturation magnetostriction. The interaction of the surface of a ribbon made of the alloy with vapor was implemented at various stages of heat treatment, such as heating, cooling, and isothermal holding. The results of the study have confirmed an important contribution of the stresses induced by hydrogen and oxygen atoms, which are incorporated into the surface of the ribbon, to the formation of the magnetic characteristics of the alloy. The heat treatment of the surface of the ribbon with vapor at various stages together with varying rate of cooling substantially enhance the maximum magnetic permeability at an optimum duration of isothermal holding. This is primarily due to a decrease in the relative volume of orthogonal-magnetization domains because of an additional rise in predominantly plane tensile stresses induced by hydrogen and oxygen atoms which are incorporated into the surface of the ribbon. [ABSTRACT FROM AUTHOR]

Published

2015

6. A Modified Formulation of the Volume Integral Equations Method for 3-D Magnetostatics.

Author

Morandi, Antonio, Fabbri, Massimo, and Ribani, Pier Luigi

Abstract

A magnetization-based formulation of the volume integral equations method for 3-D magnetostatics is discussed. The magnetization of each element is related, via the constitutive law of the material, to the average magnetic flux density within the element rather than to the value at the center as is usually done. This assumption leads to more accurate distribution of magnetization and allows a faster convergence of the solution. Moreover, it leads to more symmetric matrix of the coefficients and reduces the numerical instability due to looping patterns of magnetization, which is inherent to integral methods. The formulation is made effective by the use of a hybrid numerical and analytical approach, which allows for the fast and accurate calculation of the coefficients. The proposed model is validated and compared with the usual model both for saturable and linear material with high susceptibility. [ABSTRACT FROM PUBLISHER]

Published

2010

7. Forced ferromagnetic ordering in systems with magnetic ions of two types

Author

Zavorotnev, Yu.D. and Medvedeva, L.I.

Subjects

*FERROMAGNETIC materials, *MAGNETIC ions, *MAGNETIZATION, *PHASE transitions, *TEMPERATURE, *CRYSTALS

Abstract

Abstract: The distribution of magnetization in domain walls of ferromagnetic (FM) crystals with two order parameters interacting with each other—F 1z and F 2z , is considered. In one case the interaction is represented as (F 1z F 2z ) and in another—(F 1z 2 F 2z 2). It is shown that in the former case the magnetization distribution has space amplitude modulation, and in latter case appears space frequency modulation. Changes of the paramagnetic–ferromagnetic phase transition temperature in view of interaction of two FM subsystems have been studied. [Copyright &y& Elsevier]

Published

2011

8. A Modified Formulation of the Volume Integral Equations Method for 3-D Magnetostatics

Author

Antonio Morandi, Pier Luigi Ribani, Massimo Fabbri, A. Morandi, M. Fabbri, and P. L. Ribani

Subjects

SPECTRAL ANALYSIS, Physics, Magnetic domain, Constitutive equation, Mathematical analysis, Magnetostatics, Integral equation, Finite element method, Magnetic flux, Electronic, Optical and Magnetic Materials, Magnetization, Classical mechanics, INTEGRAL EQUATIONS, NON-LINEAR MAGNETOSTATICS, ILL-CONDITIONING, DISTRIBUTION OF MAGNETIZATION, Electrical and Electronic Engineering, Numerical stability

Abstract

A magnetization-based formulation of the volume integral equations method for 3-D magnetostatics is discussed. The magnetization of each element is related, via the constitutive law of the material, to the average magnetic flux density within the element rather than to the value at the center as is usually done. This assumption leads to more accurate distribution of magnetization and allows a faster convergence of the solution. Moreover, it leads to more symmetric matrix of the coefficients and reduces the numerical instability due to looping patterns of magnetization, which is inherent to integral methods. The formulation is made effective by the use of a hybrid numerical and analytical approach, which allows for the fast and accurate calculation of the coefficients. The proposed model is validated and compared with the usual model both for saturable and linear material with high susceptibility.

Published

2010