wang fahou, shi jinshui, chen sifu, et al. Advances in big-size fast-pulsed amorphous cores research[J]. High Power Laser and Particle Beams, 2010, 22.
Citation:
wang fahou, shi jinshui, chen sifu, et al. Advances in big-size fast-pulsed amorphous cores research[J]. High Power Laser and Particle Beams, 2010, 22.
wang fahou, shi jinshui, chen sifu, et al. Advances in big-size fast-pulsed amorphous cores research[J]. High Power Laser and Particle Beams, 2010, 22.
Citation:
wang fahou, shi jinshui, chen sifu, et al. Advances in big-size fast-pulsed amorphous cores research[J]. High Power Laser and Particle Beams, 2010, 22.
This paper describes the research progress of manufacturing technology for amorphous cores, including layer insulation, magnetic field annealing and encapsulation technology. The results show as follows: (1) for the amorphous ribbon surface is coated with 0.6~1.0 μm thick SiO2 insulation, the breakdown voltage is no less than 120 V DC between ribbon layers; (2) through magnetic field annealing, the remanence ratio is larger than 0.90 or less than 0.20 for longitudinal or latitudinal field, respectively, and the amorphous core magnetic property varies within 5% after encapsulation. Through experiments on big amorphous cores with layer insulation under fast-pulsed condition, the pulsed permeability and flux swing were obtained. The flux swing of the Fe-based amorphous core of 1 0
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