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Nanocrystalline Ribbon  Nanomaterials   Nano Crystalline Ribbon, For Distribution Transformer

Nanocrystalline Ribbon Nanomaterials Nano Crystalline Ribbon, For Distribution Transformer

Item NO.: XC-Nanocrystalline

Detail

  • Product NameNanocrystalline Ribbon Nanomaterials Nano Crystalline Ribbon, For Distribution Transformer
  • Item NO.XC-Nanocrystalline
  • Weight1.0000 kg = 2.2046 lb = 35.2740 oz
  • CategoryNanocrystalline Ribbon
  • BrandXINCITECH
  • Creation Time2023-07-11
  • Antainano® nanocrystalline ribbons are mainly composed of iron, silicon, boron, copper, niobium and other elements

Nanocrystalline strips

The company has an annual output of 3,000 tons of high-precision Antainano® nanocrystalline strips. Antainano® nanocrystals are mainly composed of iron, silicon, boron, copper, niobium and other elements, and are prepared at a cooling rate of 10% /s. After a specific annealing process, soft magnetic alloy materials with ultra-fine grain size (~10nm) are obtained.


Material property

High saturation magnetic susceptibility, high magnetic permeability

The ferro-based nanocrystalline soft magnetic alloy can have both high saturation magnetic induction intensity (1.25T) and high initial permeability (>80000), which is conducive to the development of small core size and high precision

Low loss

Equivalent to 1/5 iron loss of Fe-based non-products, 100kHz, 300mT loss as low as 50W/kg, lower temperature rise

Low coercivity

Static coercivity is lower than 1.5A/m

Low magnetic elongation

The saturation hysteresis coefficient is close to zero, so there is very low operating noise

Excellent temperature stability

The change rate of material properties in the temperature range of -50° C-150 ° C is 10%

Excellent frequency characteristics

Excellent permeability and low loss over a wide frequency range

The tunability of magnetic properties

Different types of magnetic properties can be obtained by applying different strengths of transverse magnetic, longitudinal magnetic or heat treatment without magnetic field, such as low remanence type, high rectangular ratio type, high permeability type, etc


Product characteristics

Save energy

Short manufacturing process, one step molding


Meet the high frequency and low loss performance requirements

High saturation magnetic induction strength of ferro-based amorphous alloys(Bs) and cobalt-based amorphous alloys for high permeability and low loss


Basic characteristic

Nanocrystalline strip material properties

Material grade

Curie temperature

Crystallization temperature

Density

(g/c)

Electrical resistivity

Saturation magnetic induction

Saturation hysteresis coefficient

1K107 series

570°C

530°C

7.20

120

1.25

< 1×10⁻⁶

Low permeability

560°C

510°C

7.20

120

1.10 -1.30

< 1×10⁻⁶



Standard magnetic characteristic

Name

Materials

Relative initial permeability

Remanence ratio

Coercive force

Saturation magnetic induction

Electrical resistivity

Nanocrystalline 1K107

Antainano®

LM

FeCuNbSiB

30000-60000

85-95

1.5

1.25

120

NM

50000-100000

45-65

TM

30000-150000

5-20

Amorphous 1K101Antainano®

FeSiB

~ 5000

~ 85

≤ 2.5

1.56

120

Cobalt based amorphous

>50wt.%Co

~ 300000

> 90

≤1.5

0.5-0.9

140

Industrial pure iron

99.8Fe

150

/

80

2.14

10

Mild steel

99.5Fe

/

/

/

/

/

Siliconsteel (non-oriented)

3Si residual Fe

270

/

60

2.01

47

Siliconsteel (orientation)

3Si residual Fe

1400

/

7

2.01

50

1J50

48Ni more than Fe

11000

/

2

1.55

48

1J84

4Mo79Ni

40000

/

1

0.8

58

1J85

5Mo80Ni

80000

/

0.4

0.78

65


Hysteresis loop

Relative permeability: μ=1,500~300,000

Anti-saturation magnetic field: Hm=30~350 A/m