Product Introduction
1 Introduction
Iron Based Nano crystalline Ribbon is composed of Fe, Si, B, Nb, and Cu etc.
Iron based amorphous alloy including Cu and Nb element can be formed into crystallite with size in 10-20nm above crystallization temperature through particular annealing treatment. The crystallite material is defined as Nano crystalline alloy.
2 Application
EMC common mode and differential mode filter inductor cores;
switching-mode power supply transformer cores;
current mutual sensor cores (zero sequence, leakage protection);
Magnetic amplifier, spike killer core, saturable inductor core;
3 Feature
High saturation flux density, high permeability, low coercivity, Low loss, good stability, high strength and corrosion resistance, can replace silicon steel, permalloy and ferrite as ideal material for transformer, mutual inductor, its components, has the highest PQ ratio.
Specification
Saturation Flux Density Bs /T | 1.25 | Saturation magnetostriction λs | 27*10^-6 |
Curie Temperature Tc(℃) | 560 | Density d (g/cm^3) | 7.2 |
Crystallization Tx(℃) | 510 | Resistivity ρ(Ωm²/m) | 130 |
Hardness HV (kg/mm^2) | 880 | Thickness um | 29-35 |
| 0.020-0.025 | Filling Factor σ | ≥0.80 |
Magnetic Displacement B/T | ≥1.12 | Coercivity Hc(A/m) | ≤2.0 |
Iron Loss P0.5T/20k (W/kg) | ≤25 | Iron Loss P0.3T/100k /(W/kg) | ≤100 |
Permeability u(1khz) | ≥70000 | Permeability u(10khz) | ≥60000 |
Permeability u(100khz) | ≥10000 | Curie Temperature Tc℃ | 570 |
Continuous Operation Temp ℃ | -50-120 | Saturation Magnetostriction λs | <2*10³-6 |
Performance Advantages & Feature
R High saturation flux density-- to reduce winding turns, minimize product size
R High resistivity, low coercivity--to improve production performance
R Low loss(1/3 to 1/5 of silicon sheet)--to cool temperature, improve efficiency
R Low excitation--decrease no-load current, and noise
R Adjustable permeability--adopt different heat treatment process according to different requirement
R High temperature stability--long-term operation under 130° C