Evaluation of the impact of geometry and plastic deformation on the stray magnetic field around the bone-shaped sample

Zbigniew Usarek; Boleslaw Augustyniak

doi:10.3233/jae-151987

Analysis of the Possibility of Plastic Deformation Characterisation in X2CrNi18-9 Steel Using Measurements of Electromagnetic Parameters

Materials ◽

10.3390/ma14112904 ◽

2021 ◽

Vol 14 (11) ◽

pp. 2904

Author(s):

Maciej Roskosz ◽

Krzysztof Fryczowski ◽

Lechosław Tuz ◽

Jianbo Wu ◽

Krzysztof Schabowicz ◽

...

Keyword(s):

Magnetic Field ◽

Plastic Deformation ◽

Magnetic Phase ◽

Noise Signal ◽

Mean Value ◽

Electromagnetic Properties ◽

Barkhausen Noise ◽

Residual Magnetic Field ◽

In Series ◽

The Impact

An analysis was conducted on the possibility of making an assessment of the degree of plastic deformation ε in X2CrNi18-9 steel by measuring three electromagnetic diagnostic signals: the Barkhausen noise features, the impedance components in in-series LCR circuits, and the residual magnetic field components. The impact of ε on a series of different extracted features of diagnostic signals was investigated. The occurrence of two regions of sensitivity was found for all the features of the analysed signals. The two regions were separated by the following critical deformation value: ε ~ 10% for the components of the residual magnetic field and ε ~ 15% for the normalised components of impedance. As for the Barkhausen noise signal, the values were as follows: ε ~ 20% for the mean value, ε ~ 20% for the peak value of the signal envelope, and ε ~ 5% for the total number of the signal events. Metallographic tests were performed, which revealed essential changes in the microstructure of the tested material for the established critical values. The martensite transformation occurring during the plastic deformation process of X2CrNi18-9 austenitic steel process generated a magnetic phase. This magnetic phase was strong enough to relate the strain state to the values of diagnostic signals. The changes in the material electromagnetic properties due to martensitic transformation (γ → α’) began much earlier than indicated by the metallographic testing results.

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Influence of Plastic Deformation on Stray Magnetic Field Distribution of Soft Magnetic Steel Sample

IEEE Transactions on Magnetics ◽

10.1109/tmag.2013.2289329 ◽

2014 ◽

Vol 50 (4) ◽

pp. 1-4 ◽

Cited By ~ 5

Author(s):

Zbigniew Usarek ◽

Boleslaw Augustyniak ◽

Marek Augustyniak ◽

Marek Chmielewski

Keyword(s):

Magnetic Field ◽

Plastic Deformation ◽

Field Distribution ◽

Steel Sample ◽

Magnetic Field Distribution ◽

Soft Magnetic ◽

Stray Magnetic Field ◽

Magnetic Steel

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MAGNETIC FIELD IMPACT UPON TRIBOTECHNICAL CHARACTERISTICS OF PERMANENT CONNECTIONS IN RELATION TO FRICTION SHOCK ABSORBERS

Bulletin of Bryansk state technical university ◽

10.30987/1999-8775-2020-10-4-11 ◽

2020 ◽

Vol 2020 (10) ◽

pp. 4-11

Author(s):

Victor Tikhomirov ◽

Aleksandr Gorlenko ◽

Stanislav Volohov ◽

Mikhail Izmerov

Keyword(s):

Magnetic Field ◽

Friction Factor ◽

Physical Contact ◽

Active Centers ◽

Press Fit ◽

Electro Magnetic Field ◽

Investigation Methods ◽

Electro Magnetic ◽

The Impact ◽

The Magnetic Field

The work purpose is the investigation of magnetic field impact upon properties of friction steel surfaces at fit stripping with tightness through manifested effects and their wear visually observed. On the spots of a real contact the magnetic field increases active centers, their amount and saturation with the time of dislocation outlet, and has an influence upon tribo-mating. The external electro-magnetic field promotes the increase of the number of active centers at the expense of dislocations outlet on the contact surface, and the increase of a physical contact area results in friction tie strengthening and growth of a friction factor. By the example of friction pairs of a spentonly unit in the suspension of coach cars there is given a substantiation of actuality and possibility for the creation of technical devices with the controlled factor of friction and the stability of effects achieved is also confirmed experimentally. Investigation methods: the fulfillment of laboratory physical experiments on the laboratory plant developed and patented on bush-rod samples inserted with the fit and tightness. The results of investigations and novelty: the impact of the magnetic field upon the value of a stripping force of a press fit with the guaranteed tightness is defined. Conclusion: there is a possibility to control a friction factor through the magnetic field impact upon a friction contact.

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THE IMPACT OF A MAGNETIC FIELD ON THE WEAR OF THE GRINDING BODIES, LINING, AND ORE DISINTEGRATION (IN ENGLISH)

Izvestiya vysshikh uchebnykh zavedenii Gornyi zhurnal ◽

10.21440/0536-1028-2018-8-75-82 ◽

2018 ◽

pp. 75-82

Author(s):

KHOPUNOV EDUARD AFANAS'EVICH ◽

◽

SHATAILOV IURII LEONIDOVICH ◽

VORONCHIKHIN SERGEI LEONIDOVICH ◽

SHATAILOV ALEKSANDR IUR'EVICH ◽

...

Keyword(s):

Magnetic Field ◽

The Impact

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Qualitative and quantitative assessment of magnetic vestibular stimulation in humans

Journal of Vestibular Research ◽

10.3233/ves-201538 ◽

2020 ◽

Vol 30 (6) ◽

pp. 353-361

Author(s):

Rebecca S. Dewey ◽

Rachel Gomez ◽

Chris Degg ◽

David M. Baguley ◽

Paul M. Glover

Keyword(s):

Magnetic Field ◽

Objective Measure ◽

Quantitative Measure ◽

Vestibular Stimulation ◽

Initial Study ◽

Clinical Test ◽

Healthy Control ◽

Student’S T ◽

The Impact ◽

The Magnetic Field

The sensation of phantom motion or exhibition of bodily sway is often reported in the proximity of an MR scanner. It is proposed that the magnetic field stimulates the vestibular system. There are a number of possible mechanisms responsible, and the relative contributions of susceptibility on the otolithic receptors and the Lorentz force on the cupulae have not yet been explored. This exploratory study aims to investigate the impact of being in the proximity of a 7.0 T MR scanner. The modified clinical test of sensory interaction on balance (mCTSIB) was used to qualitatively ascertain whether or not healthy control subjects who passed the mCTSIB in normal conditions 1) experienced subjective sensations of dizziness, vertigo or of leaning or shifting in gravity when in the magnetic field and 2) exhibited visibly increased bodily sway whilst in the magnetic field compared to outside the magnetic field. Condition IV of the mCTSIB was video recorded outside and inside the magnetic field, providing a semi-quantitative measure of sway. For condition IV of the mCTSIB (visual and proprioceptive cues compromised), all seven locations/orientations around the scanner yielded significantly more sway than at baseline (p < 0.01 FDR). A Student’s t-test comparing the RMS velocity of a motion marker on the upper arm during mCTSIB condition IV showed a significant increase in the amount of motion exhibited in the field (T = 2.59; d.f. = 9; p = 0.029) compared to outside the field. This initial study using qualitative measures of sway demonstrates that there is evidence for MR-naïve individuals exhibiting greater sway while performing the mCTSIB in the magnetic field compared to outside the field. Directional polarity of sway was not significant. Future studies of vestibular stimulation by magnetic fields would benefit from the development of a sensitive, objective measure of balance function, which can be performed inside a magnetic field.

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Influence of rotating magnetic field on Maxwell saturated ferrofluid flow over a heated stretching sheet with heat generation/absorption

Mechanics & Industry ◽

10.1051/meca/2019022 ◽

2019 ◽

Vol 20 (5) ◽

pp. 502 ◽

Cited By ~ 3

Author(s):

Aaqib Majeed ◽

Ahmed Zeeshan ◽

Farzan Majeed Noori ◽

Usman Masud

Keyword(s):

Magnetic Field ◽

Temperature Field ◽

Velocity Field ◽

Differential Equations ◽

Heat Transport ◽

Viscous Dissipation ◽

Heat Generation ◽

Fluid Motion ◽

Numerical Procedure ◽

The Impact

This article is focused on Maxwell ferromagnetic fluid and heat transport characteristics under the impact of magnetic field generated due to dipole field. The viscous dissipation and heat generation/absorption are also taken into account. Flow here is instigated by linearly stretchable surface, which is assumed to be permeable. Also description of magneto-thermo-mechanical (ferrohydrodynamic) interaction elaborates the fluid motion as compared to hydrodynamic case. Problem is modeled using continuity, momentum and heat transport equation. To implement the numerical procedure, firstly we transform the partial differential equations (PDEs) into ordinary differential equations (ODEs) by applying similarity approach, secondly resulting boundary value problem (BVP) is transformed into an initial value problem (IVP). Then resulting set of non-linear differentials equations is solved computationally with the aid of Runge–Kutta scheme with shooting algorithm using MATLAB. The flow situation is carried out by considering the influence of pertinent parameters namely ferro-hydrodynamic interaction parameter, Maxwell parameter, suction/injection and viscous dissipation on flow velocity field, temperature field, friction factor and heat transfer rate are deliberated via graphs. The present numerical values are associated with those available previously in the open literature for Newtonian fluid case (γ 1 = 0) to check the validity of the solution. It is inferred that interaction of magneto-thermo-mechanical is to slow down the fluid motion. We also witnessed that by considering the Maxwell and ferrohydrodynamic parameter there is decrement in velocity field whereas opposite behavior is noted for temperature field.

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Study on the Impact of Fine-Blanking with Negative Clearance on the Materials Microstructure and Hardness

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.97-101.149 ◽

2010 ◽

Vol 97-101 ◽

pp. 149-152

Author(s):

W.F. Fan ◽

J.H. Li ◽

Zhong Mei Zhang

Keyword(s):

Plastic Deformation ◽

Research Result ◽

Original Material ◽

Fine Blanking ◽

Complicated Process ◽

Aisi 1045 Steel ◽

Aisi 1045 ◽

Negative Clearance ◽

The Impact ◽

1045 Steel

The Fine-blanking with negative clearance processing is very complicated process because the blanking clearance is negative clearance, for this reason, the state of stress and strain in sheet inside are also more complicated than conventional blanking. In the process of fine-blanking with negative, plastic deformation of the material is fiercer than conventional blanking, and the change of material inner structure and hardness is more intense because of plastic deformation. The deformation principle of fine-blanking deformation with negative clearance is analyzed by means of streamline and metallographic photograph and micro hardness. The impact of fine-blanking with negative clearance on the materials microstructure and hardness is discussed. The research result indicates that the hardening value is 1.8 times than original material itself and the maximum harden depth is 2.2mm for AISI-1045 steel in the process of blanking with negative clearance. Therefore, it could enhance fatigue strength and the working life of workpiece greatly because of the improvement of the material inner structure.

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A Numerical Method to Reduce the Stray Magnetic Field Around the Asymmetrical Wireless Power Transfer Coils for Electric Vehicle Charging

Journal of Electrical Engineering and Technology ◽

10.1007/s42835-021-00948-6 ◽

2021 ◽

Author(s):

Wenjie Zhang ◽

Jiancheng Song ◽

Lingyan Lin ◽

Hui Ren ◽

Lijun Zheng ◽

...

Keyword(s):

Magnetic Field ◽

Numerical Method ◽

Electric Vehicle ◽

Wireless Power Transfer ◽

Power Transfer ◽

Wireless Power ◽

Stray Magnetic Field ◽

Electric Vehicle Charging ◽

Vehicle Charging

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Influence of the parameters of the gradient impact of a constant magnetic field on the intensification of the tobacco wilting process

Известия вузов. Пищевая технология ◽

10.26297/0579-3009.2020.2-3.25 ◽

2020 ◽

Author(s):

Е.И. Виневский ◽

А.В. Чернов

Keyword(s):

Magnetic Field ◽

Constant Magnetic Field ◽

Permanent Magnets ◽

Moisture Loss ◽

Duration Of Treatment ◽

Linear Gradient ◽

Tobacco Leaves ◽

Tobacco Leaf ◽

Gradient Effect ◽

The Impact

Исследовано влияние параметров градиентного воздействия постоянного магнитного поля (ПМП) на интенсификацию процесса томления табачных листьев. Выдвинута рабочая гипотеза о том, что для стимулирования процесса томления листьев табака необходимо градиентное воздействие на них ПМП, возникающее в результате перемещения листьев относительно системы постоянных магнитов. Введено понятие приведенного коэффициента убыли влаги, равное отношению влажности обработанных листьев к влажности контрольных образцов – необработанных листьев. Установлено, что при использовании точечного градиентного воздействия ПМП на среднюю жилку табачных листьев частотой 0,3 Гц и продолжительности обработки в течение 115–125 с при высоте расположения магнитов 25 мм процесс томления листьев ускоряется на 28,8% в сравнении с контролем. При линейном градиентном воздействии ПМП на табачный лист с частотой 0,3 Гц процесс томления ускоряется на 4,7–15,5% в зависимости от продолжительности обработки (10–40 с). При увеличении продолжительности обработки до 80 с процесс томления листьев табака замедлился. Установлено максимальное ускорение процесса томления листьев табака: при точечном градиентном воздействии ПМП на среднюю жилку табачного листа частотой 0,3 Гц и продолжительности обработки в течение 115–125 с; при линейном градиентном воздействии ПМП на табачный лист частотой 0,3 Гц и продолжительности обработки в течение 55–65 с. The influence of the parameters of the gradient effect of a constant magnetic field (CMF) on the intensification of the process of languishing tobacco leaves is studied. A working hypothesis is put forward that to stimulate the process of tobacco languor, it is necessary to have a gradient effect on them of CMF, which occurs as a result of the movement of leaves relative to the system of permanent magnets. The concept of the reduced coefficient of moisture loss is introduced, which is equal to the ratio of the humidity of treated leaves to the humidity of control samples-untreated leaves. It was found that when using a point gradient effect of CMF on the middle vein of tobacco leaves with a frequency of 0,3 Hz and a duration of processing for 115–125 s at the height of the magnets of 25 mm, the process of leaf languor is accelerated by 28,8% in comparison with the control. When the linear gradient effect of CMF on the tobacco leaf with a frequency of 0,3 Hz, the languor process is accelerated by 4,7–15,5%, depending on the duration of treatment (10–40 s). In the future, with an increase in the processing time to 80 s, the process of languishing tobacco leaves slowed down. The maximum acceleration of the process of languishing tobacco leaves is established: for spot gradient effect of CMF on the mid-veins of tobacco leaf frequency of 0,3 Hz and duration of treatment for 115–125 s; a linear gradient in the impact of CMF on the tobacco sheet with a treatment frequency of 0,3 Hz and duration of treatment for 55–65 s.

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