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DOI - 10.32743/UniTech.2022.96.3.132 75 APPLICATION OF MAGNETIC MATERIALS IN TECHNICS
Shovkat Saytdjanov
Senior lecturer, Tashkent State Transport University,
Uzbekistan, Tashkent E-mail: savtdjanov123@mail.ru
Faxriddin Xusniddinov
Assistant, Tashkent State Transport University, Uzbekistan, Tashkent E-mail: xusniddinovfsh@gmail.com
ПРИМЕНЕНИЕ МАГНИТНЫХ МАТЕРИАЛОВ В ТЕХНИКЕ
Сайтджанов Шовкат Нигматжанович
ст. преподаватель,
Ташкентский государственный транспортный университет,
Республика Узбекистан, Ташкент
Хусниддинов Фахриддин Шамсиддинович
ассистент,
Ташкентский государственный транспортный университет,
Республика Узбекистан, Ташкент
ABSTRACT
In this article, the use of magnetic materials in engineering and their main characteristics. In addition, the directions of materials science and instrumentation are developing, and given the high demand of mankind for clean materials, the production of structural finished products using various metal alloys is one of the important tasks for scientists. In this work, the task is to scientifically study the physicochemical properties of magnetic materials.
АННОТАЦИЯ
В этой статье рассматривается использование магнитных материалов в технике и их основные характеристики. Кроме того, развиваются направления материаловедения, приборостроения, а учитывая высокую потребность человечества в чистых материалах, производство конструкционное готовых изделий с использованием различных металлических сплавов является одним из важных задач перед учёными. В этой работе поставлена задача научно изучить физико-химические свойства магнитных материалов.
Keywords: materials science, instrumentation, metallurgy, magnetic flux, alloy, magnet, soft magnetic materials, ferromagnetic, ferro-crystalline, ultrahigh magnetization, electron spins, electrolytes.
Ключевые слова: материаловедение, приборостроение, металлургия, магнитный поток, сплав, магнит, мягкие магнитные материалы, ферромагнитные, железокристаллические, сверхвысокие намагниченности, спины электронов, электролиты.
Introduction
It is very difficult to imagine our daily life without technology. Therefore, the 21st century is the "age of technology", which poses a number of problems for humanity. Especially at a time when the field of materials science and instrumentation is developing, the human need for pure materials is growing. We can also see the development of technology in the field of railways, that is, we can take the example of magnetic railways on the example of strong states.
In the context of continuous improvement, identification and expansion of production, the success
of the main workshops of metallurgical enterprises will depend on the efficient operation of railway transport, the timely delivery of raw materials to units, the transportation of semi-finished products between workshops and delivery. finished products to consumers.
Methods
When using magnetic materials, the magnetic flux increases dramatically. Low-voltage currents from the magnetic flux are used to convert high-voltage currents or electrical energy into mechanical energy, as well as to generate electrical energy in a similar way [1].
Библиографическое описание: Saytdjanov S.N., Xusniddinov F.S. APPLICATION OF MAGNETIC MATERIALS IN TECHNICS // Universum: технические науки : электрон. научн. журн. 2022. 3(96). URL: https://7universum. com/ru/tech/archive/item/132 75
А1
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Materials that have the property of being magnetized by an external magnetic field are called magnetic materials. Examples of basic magnetic materials are various alloys based on nickel, cobalt and pure iron. Magnetic materials of technical importance include ferromagnetic materials and ferromagnetic chemical compounds (ferrites).
The magnetic properties of materials lie in the internal movement of electric charges, in which the charges are expressed as an elementary circulating current. Such rotating currents are created by the rotation of electrons around their own axis (electron backs) and their rotation in an orbit inside the atom. The phenomenon of a ferromagnet is associated with the formation of crystalline structures in the inner microscopic part of some materials, such structures are called magnetic domains. In this case, the electron spins are oriented in one direction parallel to each other [1-3].
A characteristic feature of a body in a ferromagnetic state is its spontaneous (spontaneous) magnetization under the action of an external magnetic field. Spins in some regions of ferromagnetic magnetic moments can have different directions. The total magnetic flux of such materials in the external environment is zero.
Results and Discussion
Soft magnetic materials
Magnetic materials are divided into soft and hard. Magnetic cores are made of soft magnetic materials. The initial value of the magnetic susceptibility of these materials must be large. In soft magnetic materials, the resistivity should be relatively large, and the coercive force (Hc<0,1 A/m) should be small. Examples of these materials are pure iron, alloys of iron with silicon, nickel and cobalt.
Electrolytic iron is obtained by electrolysis of commercially pure iron. The total amount of additives in such cast iron should not exceed 0.05%. By processing electrolytic iron, a powder with a particle size of 50100 ^m is obtained. Cores are made from this powder by pressurizing it. They are used in devices with a frequency of about 100-1000 gauss [2-4].
Carbonyl iron is obtained by chemical decomposition of pentacarbonyl [liquid Fe2(CO)5] at a temperature of 200-250°C. Carbonyl iron is in the form of a fine powder, from which high-frequency magnetic circuits are made. The small spherical particles drastically reduce the amount of sediment that forms in the core.
Carbon and oxygen are released from a pure iron compound burned in hydrogen at 1480°C for 30-40 minutes:
Fe3C+2H2^CH4+3Fe; FeO+H2^H2O+Fe.
март, 2022 г.
This iron is particularly clean; in a weak magnetic field, the value of цр of this material is large. Monocrystalline iron has very high magnetizing properties.
Silicon electrical steel is composed of an alloy of iron and silicon. Sheets from it are called sheets of electrical steel. This steel is one of the main magnetic materials and is widely used in electrical machines and devices operating at industrial frequencies. The main purpose of adding silicon to the iron content is to increase the resistivity of the material and limit the current in it. The element silicon significantly increases the value of P, practically without changing the magnetic properties of iron [5-6].
Structural cast iron and steel tools, hardware and electrical equipment are widely used materials in mechanical engineering. According to their magnetic properties, they are divided into magnetic (gray cast iron, carbon and alloy steel) and non-magnetic types.
Gray cast iron contains 3.2 - 3.5% carbon, silicon, manganese, phosphorus and sulfur. The bending strength of this material is 200-450 MPa. The body, base and similar parts of electrical machines are made from it.
Usually castings are made of carbon steel containing 0.08 - 0.2% carbon. In this case, the casting is gradually softened at a temperature of 850 - 9000C. Steels alloyed with nickel, vanadium, chromium and molybdenum are used in special electrical machines, as well as in machines of light construction. The mechanical bending strength of these steels is in the range of 500 - 950 MPa.
Hard magnetic materials
According to the composition, conditions and methods of production, hard magnetic materials are divided into: 1) alloyed martensitic steels; 2) cast hard magnetic alloys; 3) powder magnet; 4) hard magnetic ferrites; 5) flexible alloys and magnetic tapes. When there is an air gap between the poles, some of the energy is associated with the area outside the volume of the magnetic material [3, 7].
Conclusions
When metals such as tungsten or chromium are introduced into steel, a martensitic structural material is formed. This reduces the wear process of steel permanent magnets. Tungsten steel contains 0.6% C, 5-6% W, and chromium steel contains 1% C, 1%-3% Cr, and their properties are greatly improved compared to carbon steel. The magnetic properties of these materials are: Hc = 0.45-0.5 kA/m, Br = 0.9-1.1 Wb/m2, Wr = 0.9-12 kJ/m3.
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1. Yu.I. Bulatov., R.V. Lyambakh., Yu.A. Petrov. ACS for railway transport of a metallurgical plant. Moscow "METALLURGY" 1991.
2. Zimmerman R., Gutner K. Metallurgy and material science. Directory. Moscow: Metallurgy, 1982. p. 480.
3. Turakhonov A.S. Materials science and heat treatment. Tutorial. Tashkent-1968.
4. Бурханов Шавкат Джалилович, Мирсаатов Равшанбек Муминович, Кадыров Бахтиёр Халилович, Худойберганов Сардорбек Баходирович СПОСОБ И УСТРОЙСТВО ДЛЯ ОПРЕДЕЛЕНИЯ ШЕЛКОНОСНОСТИ ШЕЛКОВИЧНЫХ КОКОНОВ БЕЗ ИХ ВЗРЕЗКИ // Universum: технические науки. 2021. №2-1 (83).
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5. Burkhanov S.D. Relationship of parameters that characterize the quality of live cocoons / Burkhanov S.D., Mirsaatov R.M., Khudoyberganov S.B., Kadyrov B.H. // IOP Conference Series: Earth and Environmental Sci-encethis link is disabled, 2021, 677(4), 042032.
6. Akhmedov A. The influence of production conditions on the electrophysical parameters of piezoceramics for different applications / Akhmedov, A., Sauchuk, G., Yurkevich, N., Bazarov, M., Karshiev, K. // E3S Web of Conferences, 2021, 264, 04020.
7. Сабиров А.К. Эмиссионные свойства сплава Ta-HF / А.К. Сабиров, С.Б. Худойберганов // Точная наука. -2019. - № 40. - С. 7-8.