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iron-based nano crystal alloy
Physical performance
saturated magnetic induction density Bs | 1.56T | Hardness Hv | 960 |
Curie temperature | 410°C | Density d | 7.18g/cm3 |
crystallization temperature | 550°C | electrical resistivity r | 130mW-cm |
Saturated magnetic coefficient of dilatation | 27×10-6 | Continuous working temperature scope | -55-130oC |
magnetic performance
Item | transverse magnetic field annealing | No magnetic field annealing | longitudinal magnetic field annealing |
Max magnetic permeability
| >2x104 | >20´104 | >25´104 |
saturation magnetic induction intensity
| 1.5 T | 1.5 T | 1.5 T |
residual magnetic flux density | <0.5 T | 0.6-1.0 T | 1.2 T |
coactivity | <4A/m | <6 A/m | <2.5A/m |
Wastage (50Hz,1.4T) | <0.2W/kg | <0.13W/kg | <0.25W/kg |
Wastage(400Hz, 1.2T) | <1.8W/kg | <1.25W/kg | <2W/kg |
Wastage (8kHz, 1.0T) | <80W/kg | <60W/kg | <100W/kg |
Wastage (-55°C–125°C) | <15% | <15% | <15% |
Wastage (120°C´200 hours) | <15% | <15% | <15% |
amorphous alloys Specification
model | Width mm | thickness mm |
RF1-0100 | 10±0.5 | 28±2 |
RF1-0200 | 20±1 | 28±2 |
RF1-0250 | 25±1 | 28±2 |
RF1-0300 | 30±1 | 28±2 |
RF1-0400 | 40±1 | 28±2 |
RF1-0500 | 50±1 | 28±2 |
RF1-1000 | 100±1 | 28±2 |
RF1-1500 | 150±1 | 28±2 |
RF1-1700 | 170±1 | 28±2 |
RF1-2200 | 220±1 | 28±2 |
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For more detailed information please feel free to contact with Yolanda,Skype: bidragon2017