Material: | Iron-based Nanocrystalline Core |
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Shape: | Toroidal |
Certification: | ISO9001 |
Core: | Nanocrystalline Core |
Use: | Current Transformer Core |
1K107: | Transformer Core |
Samples: |
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Customization: |
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Fe-based nanocrytalline ribbon | ||
Performance characteristics: | ||
Model: (FeCuNbSiB equal to Japan model Finement) | ||
ultrafine microlite(10-20mm) structure, quite high initial permeability, high saturated magnetic induction, | ||
low iron loss and excellent stability. | ||
Application fields: | ||
1. Iron core for precision current voltage | ||
2. Iron core for electric leakage switch | ||
3. Iron core for common mode and differential mode induction | ||
4. Iron core for high-power mid frequency and transformer | ||
5. Iron core for switching power supply, and magnetic amplifier | ||
6. Iron core for peaking depressor and hall sensor |
Model | Saturated magnetic induction Bs(T) | Density | Curie temperature Tc() | Crystallization temperature Tx() | Hardness | Saturated magnetostrictive coefficient | Resistivity | Occupation efficiency(%) | Continuously working temperature | |
ρ(g/cm3) | Hv | λs | Ωµ.cm | |||||||
RS-NC | 1.25 | 7.25 | 570 | 510 | 880 | 2.7×10-6 | 130 | 78 | -50~150 | |
Fe-based nano-microlite alloy electromagnetism performance: (annealing without magnetic field) | ||||||||||
Model | Initial permeability um(Gs/Oe) | Maximum Permeability | Coercive force Hc(A/m) | Residual magnetic field density Br(T) | Iron loss | Iron loss | Iron loss | |||
um(Gs/Oe) | P(w/kg) | P(w/kg) | P(w/kg) | |||||||
20K/0.3T | 50K/0.3 T | 100K/0.3 T | ||||||||
RS-NC | ≥10×104 | 60×104 | < 1.6 | 0.6~0.7 | < 25 | < 30 | < 150 |
Specifications: |
width: 6.5~ 50mm |
thickness: 30 ± 5mm |
Core winding:
Cores are annealing in vacuum furnace:
Cores are 100% tested after annealing:
Cores are solidified :
Goods are well packed by strong plywood box to avoid any damage during transprotation:
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