2019
DOI: 10.18280/acsm.430301
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Influence of Plastic Deformation of Copper on the Behavior of Electromagnetic Shielding

Abstract: Nowadays, one of the main reasons for increasing material performances is the need to reduce electromagnetic interference (EMI) generated by high-frequency electronic circuits, which is a serious problem in terms of equipment performances. For this purpose, copper is one of the most used materials for shielding applications. Plastic deformation at the macroscopic scale generates at the microscopic scale many moving dislocations (internal stresses) affecting the efficiency of the electromagnetic shielding. Howe… Show more

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Cited by 2 publications
(1 citation statement)
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“…According to the application types, they can be divided into soft magnetic, permanent magnetic, and other materials. For the electromagnetic field shielding solution, the experimental work of this paper mainly includes, by analyzing the active and passive shielding under different coupling interference conditions, the suppression effect of shielding on the electric field and the magnetic field is obtained [31]. e power cable adopts magnetic material as the shielding layer, which can suppress the low-frequency magnetic field, which is verified by simulation.…”
Section: Suppression Of Electromagnetic Interference By Magneticmentioning
confidence: 90%
“…According to the application types, they can be divided into soft magnetic, permanent magnetic, and other materials. For the electromagnetic field shielding solution, the experimental work of this paper mainly includes, by analyzing the active and passive shielding under different coupling interference conditions, the suppression effect of shielding on the electric field and the magnetic field is obtained [31]. e power cable adopts magnetic material as the shielding layer, which can suppress the low-frequency magnetic field, which is verified by simulation.…”
Section: Suppression Of Electromagnetic Interference By Magneticmentioning
confidence: 90%