The present paper deals with the optimisation of closed shield for the attenuation of magnetic fields produced by direct and alternating currents. A multilayer shield made of different concentric layers is proposed. The optimisation procedure defines the best thicknesses and the distances between layers. The shield performance is required in a wide range of frequencies and magnetic field strengths (from 50-100 nT to 10000-50000 nT). In a first step the optimisation procedure has been applied to a simplified structure as a 2D cylinder immersed in a uniform magnetic field. In a second step the procedure has been applied to a 3D case, with cubic shape, which simulates an actual situation that can be found in the so called Magnetically Shielded...
International audiencePurpose-This paper aims to investigate the efficiency of a laminated composite...
A shape optimization technique for quasistatic field problems has been developed. The optimization i...
To shield the leakage flux densities of 3 T magnetic resonance imaging (MRI) higher than 1.5 T MRI a...
The present paper deals with the optimisation of closed shield for the attenuation of magnetic field...
In this paper a procedure for the optimization of multilayered shields for low-frequency magnetic fi...
A procedure for the optimization of planar multilayered shielding structures for magnetic fields, at...
This article provides an optimized solution to the problem of passive shielding against static magne...
In this paper a detailed description of different passive shields for Extremely Low Frequency (ELF) ...
This work reports the optimized design of a ferro-magnetic shield for a 200-kJ superconducting magne...
This study presents a new method of combining the layers of magnetic materials and conductive materi...
An extension of the thin shell formulation for the analysis of the shielding efficiency of multilaye...
The magnetic field generated by a nonsinusoidal periodic source is shielded by a planar infinite mul...
The shielding performance of perforated magnetic shields for electric power applications is describe...
Abstract. A multilayer shielding system with five concentric cylinders of P-80 high-permeability mat...
An efficient approach for evaluating the low-frequency magnetic shielding effectiveness of long cyli...
International audiencePurpose-This paper aims to investigate the efficiency of a laminated composite...
A shape optimization technique for quasistatic field problems has been developed. The optimization i...
To shield the leakage flux densities of 3 T magnetic resonance imaging (MRI) higher than 1.5 T MRI a...
The present paper deals with the optimisation of closed shield for the attenuation of magnetic field...
In this paper a procedure for the optimization of multilayered shields for low-frequency magnetic fi...
A procedure for the optimization of planar multilayered shielding structures for magnetic fields, at...
This article provides an optimized solution to the problem of passive shielding against static magne...
In this paper a detailed description of different passive shields for Extremely Low Frequency (ELF) ...
This work reports the optimized design of a ferro-magnetic shield for a 200-kJ superconducting magne...
This study presents a new method of combining the layers of magnetic materials and conductive materi...
An extension of the thin shell formulation for the analysis of the shielding efficiency of multilaye...
The magnetic field generated by a nonsinusoidal periodic source is shielded by a planar infinite mul...
The shielding performance of perforated magnetic shields for electric power applications is describe...
Abstract. A multilayer shielding system with five concentric cylinders of P-80 high-permeability mat...
An efficient approach for evaluating the low-frequency magnetic shielding effectiveness of long cyli...
International audiencePurpose-This paper aims to investigate the efficiency of a laminated composite...
A shape optimization technique for quasistatic field problems has been developed. The optimization i...
To shield the leakage flux densities of 3 T magnetic resonance imaging (MRI) higher than 1.5 T MRI a...