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Электронный каталог: Investigating dynamics of the interface between air and magnetic fluid in the so-called magnetic ...
Investigating dynamics of the interface between air and magnetic fluid in the so-called magnetic ...
Статья
Автор:
Journal of Physics: Conference Series: Investigating dynamics of the interface between air and magnetic fluid in the so-called magnetic ...
б.г.
ISBN отсутствует
Автор:
Journal of Physics: Conference Series: Investigating dynamics of the interface between air and magnetic fluid in the so-called magnetic ...
б.г.
ISBN отсутствует
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Статья
Investigating dynamics of the interface between air and magnetic fluid in the so-called magnetic vacuum within an annular magnet / V. M. Polunin [et al.] . – DOI 10.1088/1742-6596/1348/1/012017 // Journal of Physics: Conference Series. – 2019. – Vol.1348 №1. – Article number 012017. - Журнала нет в фонде библиотеки. – Пер. загл.: [Исследование динамики границы раздела между воздухом и магнитной жидкостью в так называемом магнитном вакууме внутри кольцевого магнита].
Magnetic, acoustic, and thermophysical phenomena in magnetic fluid systems have found application in the design of magnetic fluid seals, shock absorbers, sensitive three-axis accelerometers, density meters, and a number of other advanced devices. This explains the interest in studying these effects. Lately, due to the rapid development of microfluidics, more and more works have appeared that deal with magnetic fluid dynamics in channels of various shapes when various external physical fields affect them. However, several aspects have only been studied superficially, although they are potentially of great scientific and practical interest; these are levitating gas cavity properties and magnetic, acoustic and thermophysical phenomena accompanying dynamic gas cavity and bubble displacement in a magnetic fluid. This paper investigates the dynamics of bubble trapping in magnetic fluid located in the socalled magnetic vacuum region of an annular magnet. We obtained data on effects of centrifugation and magnetic fluid structure on the strength of magnetic fluid bridges subjected to external pressure. This information may be useful for developing a test bench for magnetic fluids used in seals, where fluids undergo similar effects. We used two samples of magnetic fluid to perform an experiment which involved compressing the air cavity, eventually leading to gas bubbles detaching from the samples. We draw conclusions concerning the effects of physical parameters of magnetic fluids and magnetic field configuration on the diameter of the resulting bubbles.
537.84
общий = БД Труды научных работников БНТУ : 2019г.
труды сотрудников БНТУ = Факультет технологий управления и гуманитаризации : кафедра "Энергосбережение и возобновляемые источники энергии"
труды сотрудников БНТУ = Физика. Механика. Гидравлика (труды)
общий = ИССЛЕДОВАНИЯ
общий = ДИНАМИКА
общий = МАГНИТНЫЕ ЖИДКОСТИ
общий = МАГНИТЫ
общий = АТМОСФЕРНЫЙ ВОЗДУХ
Investigating dynamics of the interface between air and magnetic fluid in the so-called magnetic vacuum within an annular magnet / V. M. Polunin [et al.] . – DOI 10.1088/1742-6596/1348/1/012017 // Journal of Physics: Conference Series. – 2019. – Vol.1348 №1. – Article number 012017. - Журнала нет в фонде библиотеки. – Пер. загл.: [Исследование динамики границы раздела между воздухом и магнитной жидкостью в так называемом магнитном вакууме внутри кольцевого магнита].
Magnetic, acoustic, and thermophysical phenomena in magnetic fluid systems have found application in the design of magnetic fluid seals, shock absorbers, sensitive three-axis accelerometers, density meters, and a number of other advanced devices. This explains the interest in studying these effects. Lately, due to the rapid development of microfluidics, more and more works have appeared that deal with magnetic fluid dynamics in channels of various shapes when various external physical fields affect them. However, several aspects have only been studied superficially, although they are potentially of great scientific and practical interest; these are levitating gas cavity properties and magnetic, acoustic and thermophysical phenomena accompanying dynamic gas cavity and bubble displacement in a magnetic fluid. This paper investigates the dynamics of bubble trapping in magnetic fluid located in the socalled magnetic vacuum region of an annular magnet. We obtained data on effects of centrifugation and magnetic fluid structure on the strength of magnetic fluid bridges subjected to external pressure. This information may be useful for developing a test bench for magnetic fluids used in seals, where fluids undergo similar effects. We used two samples of magnetic fluid to perform an experiment which involved compressing the air cavity, eventually leading to gas bubbles detaching from the samples. We draw conclusions concerning the effects of physical parameters of magnetic fluids and magnetic field configuration on the diameter of the resulting bubbles.
537.84
общий = БД Труды научных работников БНТУ : 2019г.
труды сотрудников БНТУ = Факультет технологий управления и гуманитаризации : кафедра "Энергосбережение и возобновляемые источники энергии"
труды сотрудников БНТУ = Физика. Механика. Гидравлика (труды)
общий = ИССЛЕДОВАНИЯ
общий = ДИНАМИКА
общий = МАГНИТНЫЕ ЖИДКОСТИ
общий = МАГНИТЫ
общий = АТМОСФЕРНЫЙ ВОЗДУХ
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Выпуск
Journal of Physics: Conference Series Vol.1348 №1
The Institute of Physics, 2019 г.
ISBN отсутствует
Journal of Physics: Conference Series Vol.1348 №1
The Institute of Physics, 2019 г.
ISBN отсутствует