A theory of magnetic damper (eddy-current brake) which can be applied to axial-flux rotating and linear systems moving under the influence of an arbitrary arrangement of magnetic poles is derived from basic electromagnetic principles. Analytical expressions for the braking forces and torques are obtained in the low-velocity limit of the moving nonmagnetic conductor
We discuss a sequence of experiments aimed at exploring electromagnetic induction phenomena and ener...
We discuss a sequence of experiments aimed at exploring electromagnetic induction phenomena and ener...
In this paper, a novel hybrid excitation linear eddy current brake is presented as a braking system...
Magnetic braking is a long-established application of Lenz's law. A rigorous analysis of the laws go...
In the paper, the mathematical model of the phenomena occurring in the rail eddy-current brake of a ...
[[abstract]]A non-contact method, using magnetic drag force principle, was proposed to design the br...
[[abstract]]This paper discusses the magnetic drag force resulting from the relative motion of a per...
The eddy current brake has the advantages of no frictional contact or hydraulic fluid, high structur...
Eddy current brake (ECB) is an attractive contactless brake whereas it suffers from braking torque a...
Abstract: It is often advantageous to add lateral damping in rotating systems to suppress excessive ...
In this project, experiments were conducted to investigate the effect of magnetic damping on rotatin...
Praca zawiera wyprowadzenie wzorów (w oparciu o równania Maxwella) pozwalające wyznaczyć rozkład prą...
Magnetic braking utilizing eddy currents is used in a wide range of applications. Eddy current braki...
[[abstract]]As the conventional braking means largely rely on friction to attain the objective, desi...
In publications and conferences on the subject of wheel brakes, different concepts of electromechani...
We discuss a sequence of experiments aimed at exploring electromagnetic induction phenomena and ener...
We discuss a sequence of experiments aimed at exploring electromagnetic induction phenomena and ener...
In this paper, a novel hybrid excitation linear eddy current brake is presented as a braking system...
Magnetic braking is a long-established application of Lenz's law. A rigorous analysis of the laws go...
In the paper, the mathematical model of the phenomena occurring in the rail eddy-current brake of a ...
[[abstract]]A non-contact method, using magnetic drag force principle, was proposed to design the br...
[[abstract]]This paper discusses the magnetic drag force resulting from the relative motion of a per...
The eddy current brake has the advantages of no frictional contact or hydraulic fluid, high structur...
Eddy current brake (ECB) is an attractive contactless brake whereas it suffers from braking torque a...
Abstract: It is often advantageous to add lateral damping in rotating systems to suppress excessive ...
In this project, experiments were conducted to investigate the effect of magnetic damping on rotatin...
Praca zawiera wyprowadzenie wzorów (w oparciu o równania Maxwella) pozwalające wyznaczyć rozkład prą...
Magnetic braking utilizing eddy currents is used in a wide range of applications. Eddy current braki...
[[abstract]]As the conventional braking means largely rely on friction to attain the objective, desi...
In publications and conferences on the subject of wheel brakes, different concepts of electromechani...
We discuss a sequence of experiments aimed at exploring electromagnetic induction phenomena and ener...
We discuss a sequence of experiments aimed at exploring electromagnetic induction phenomena and ener...
In this paper, a novel hybrid excitation linear eddy current brake is presented as a braking system...
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