Fast penetration of megagauss fields into metallic conductors

Schnitzer, Ory

doi:10.1063/1.4892398

Cited by 15 publications

(3 citation statements)

References 40 publications

(76 reference statements)

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“…If one-dimensional case is considered then equation (4 ) reduces to the following diffusion equation [1][2][3][4][5] with constant magnetic diffusivity.…”

Section: Medium With Field Independent Permeabilitymentioning

confidence: 99%

Magnetic field diffusion in ferromagnetic materials: fractional calculus approaches

Hristov

2021

Int. J. Optim. Control, Theor. Appl. (IJOCTA)

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The paper addresses diffusion approximations of magnetic field penetration of ferromagnetic materials with emphasis on fractional calculus applications and relevant approximate solutions. Examples with applications of time-fractional semi-derivatives and singular kernel models (Caputo time fractional operator) in cases of field independent and field-dependent magnetic diffusivities have been developed: Dirichlet problems and time-dependent boundary condition (power-law ramp). Approximate solutions in all theses case have been developed by applications of the integral-balance method and assumed parabolic profile with unspecified exponents. Tow version of the integral method have been successfully implemented: SDIM (single integration applicable to time-fractional semi-derivative model) and DIM (double-integration model to fractionalized singular memory models). The fading memory approach in the sense of the causality concept and memory kernel effect on the model constructions have been discussed.

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“…If one-dimensional case is considered then equation (4 ) reduces to the following diffusion equation [1][2][3][4][5] with constant magnetic diffusivity.…”

Section: Medium With Field Independent Permeabilitymentioning

confidence: 99%

Magnetic field diffusion in ferromagnetic materials: fractional calculus approaches

Hristov

2021

Int. J. Optim. Control, Theor. Appl. (IJOCTA)

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“…several-fold. However, while the ETI is observed on Zebra (500 − 900 kA), theory and simulations [23,27,30] suggest a smaller ! ≈ 1 MA mm !…”

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confidence: 91%

Experimental observation of the stratified electrothermal instability on aluminum with thickness greater than a skin depth

et al. 2018

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A direct observation of the stratified electrothermal instability on the surface of thick metal is reported. Aluminum rods coated with 70μm Parylene-N were driven to 1 MA in 100ns, with the metal thicker than the skin depth. The dielectric coating suppressed plasma formation, enabling persistent observation of discrete azimuthally correlated stratified thermal perturbations perpendicular to the current whose wave numbers, k, grew exponentially with rate γ(k)=0.06ns^{-1}-(0.4ns^{-1}μm^{2}rad^{-2})k^{2} in ∼1g/cm^{3}, ∼7000K aluminum.

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“…Стоит отметить, что в исследованиях [17,18,21] не учитывалось изменение электрического сопротивления при нагреве. Этот фактор становится определяющим для сильных магнитных полей, амплитудой около 30 T и более, в частности, им обусловлен известный " пик эффект" [22,23]. Таким образом, в настоящей работе мы исследуем воздействие сильного, порядка 30 T, импульсного магнитного поля на хрупкий проводящий материал в форме полого цилиндра как с пространственно однородным начальным удельным сопротивлением, так и с различными профилями начального электросопротивления на внутренней (рабочей) поверхности.…”

Section: Introductionunclassified

Хрупкое Разрушение Проводника В Сильном Импульсном Магнитном Поле

Русских¹,

Болтачев²,

Паранин³

2023

Журнал Технической Физики

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The main factors resulting in conductor failure under the action of a strong pulsed magnetic field are analyzed. The theoretical model describes the geometry of a cylindrical thick-walled solenoid and considers magnetic field diffusion, ohmic heating of the material and mechanical stresses arising in it. The magnetic field amplitude at which induced stresses in the material reach the von Mises yield criterion is used as the Bth threshold field separating the areas of safe (non-destructive) and dangerous fields. In the case of an initially uniform material, the maximum heating temperature corresponding to this limit, which predetermines the thermomechanical stress, has been derived analytically. In the general case, based on the analysis of the calculated threshold field, the influence of various parameters (magnetic pulse characteristics, elastic moduli of the material, etc.) on the conductor resistance in the pulsed magnetic field is studied and ways of increasing the threshold field are proposed, in particular, by using different spatial profiles of the initial resistivity. It is shown that in comparison with a uniform material, a modified layer with increased resistivity formed on the surface allows to significantly increase the amplitude of the magnetic pulse withstood by the material without fracture.

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Fast penetration of megagauss fields into metallic conductors

Cited by 15 publications

References 40 publications

Magnetic field diffusion in ferromagnetic materials: fractional calculus approaches

Magnetic field diffusion in ferromagnetic materials: fractional calculus approaches

Experimental observation of the stratified electrothermal instability on aluminum with thickness greater than a skin depth

Хрупкое Разрушение Проводника В Сильном Импульсном Магнитном Поле

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