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FeCrAl alloy 0cr23al5 Resistance Heating Flat Wire with ISO9001 Certificate

Short Description:

0cr23al5 Resistance Heating Flat Wire with ISO9001 Certificate

Resistance Wire made of Nickel Chrome Alloys, Nickel Chrome Iron Alloys, Iron Chrome Aluminium Alloys, Copper Nickel Alloys.

Mainly used in heater, heating element and resistor, etc.

NiCr 80/20, NiCr 70/30, NiCr 60/15, NiCr 35/20

FeCrAl15-5, FeCrAl20-5,FeCrAl 25-5, etc...

Constantan, Alloy 30, Alloy 60, Alloy 90, etc.

Electric Resistivity from 0.02 u ohm/m-1.53 u ohm/m

Operate Temperature from 200 C to 1400 C


  • Certificate: ISO 9001
  • Size: Customized
  • Product Type: Wire
  • Carbon Content: Low Carbon
  • Size: 0.01-10mm
  • Sample: Small Order Accepted
  • product name : 0cr23al5
  • material : alloy
  • usage : industry
  • function : good stability
  • advantage: high quality
  • MOQ: 20kg
  • Product Detail

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    0cr23al5 Resistance Heating Flat Wire with ISO9001 Certificate

    Resistance Wire made of Nickel Chrome Alloys, Nickel Chrome Iron Alloys, Iron Chrome Aluminium Alloys, Copper Nickel Alloys.

    Mainly used in heater, heating element and resistor, etc.

    NiCr 80/20, NiCr 70/30, NiCr 60/15, NiCr 35/20

    FeCrAl15-5, FeCrAl20-5,FeCrAl 25-5, etc…

    Constantan, Alloy 30, Alloy 60, Alloy 90, etc.

    Electric Resistivity from 0.02 u ohm/m-1.53 u ohm/m

    Operate Temperature from 200 C to 1400 C

    Pls be free to contact us if there is any question.

    NiCr:
    RESISTOHM 20, RESISTOHM 30, RESISTOHM 40, RESISTOHM 60, RESISTOHM 70, RESISTOHM 80

    FeCrAl:
    RESISTOHM 125, RESISTOHM 135, RESISTOHM 140,
    RESISTOHM 145, RESISTOHM 153

    CuNi
    Constantan, Cuprothal 5, Cuprothal 10, Cuprothal 15, Cuprothal 30, Eurica

    FeCrAl Alloy Grade Chemical Composition %
    C P S Mn Si Cr Ni Al Fe Re Others
    max(≤)
    1Cr13Al4 0.12 0.025 0.025 0.7 ≤1.00 12.5-15.0 —- 3.5-4.5 0.1 Bal.
    0Cr15Al5 0.12 0.025 0.025 0.7 ≤1.00 14.5-15.5 —- 4.5-5.3 0.1 Bal.
    0Cr25Al5 0.06 0.025 0.025 0.7 ≤0.60 23.0-26.0 ≤0.60 4.5-6.5 0.1 Bal.
    0Cr23Al5 0.06 0.025 0.025 0.7 ≤0.60 20.5-23.5 ≤0.60 4.2-5.3 0.1 Bal.
    0Cr21Al6 0.06 0.025 0.025 0.7 ≤1.00 19.0-22.0 ≤0.60 5.0-7.0 0.1 Bal.
    0Cr21Al4 0.06 0.025 0.025 0.7 ≤1.00 21.0-23.0 ≤0.60 3.0-5.2 0.1 Bal.
    0Cr21Al6Nb 0.05 0.025 0.025 0.7 ≤0.60 21.0-23.0 ≤0.60 5.0-7.0 0.1 Bal.
    0Cr27Al7Mo2 0.05 0.025 0.025 0.7 ≤0.40 26.5-27.8 ≤0.60 6.0-7.0 0.1 Bal.

    Chemical Composition and Propertes:

    Propertes/Grade NiCr 80/20 NiCr 70/30 NiCr 60/15 NiCr 35/20 NiCr 30/20
    Main Chemical
    Composition(%)
    Ni Bal. Bal. 55.0-61.0 34.0-37.0 30.0-34.0
    Cr 20.0-23.0 28.0-31.0 15.0-18.0 18.0-21.0 18.0-21.0
    Fe ≤ 1.0 ≤ 1.0 Bal. Bal. Bal.
    Max Working
    Temperature(ºC)
    1200 1250 1150 1100 1100
    Resistivity at 20ºC
    (μ Ω · m)
    1.09 1.18 1.12 1.04 1.04
    Density(g/cm3) 8.4 8.1 8.2 7.9 7.9
    Thermal Conductivity
    (KJ/m· h· ºC)
    60.3 45.2 45.2 43.8 43.8
    Coefficient of Thermal
    Expansion(α × 10-6/ºC)
    18 17 17 19 19
    Melting Point(ºC) 1400 1380 1390 1390 1390
    Elongation(%) > 20 > 20 > 20 > 20 > 20
    Micrographic Structure austenite austenite austenite austenite austenite
    Magnetic Property nonmagnetic nonmagnetic nonmagnetic nonmagnetic nonmagnetic

     

    CuNi Alloys Grade Electrical resistivity
    (20degreeΩ
    mm² /m)
    temperature coefficient of resistance
    (10^6/degree)
    Density
    g/mm²
    Max. temperature
    (degree)
    Melting point
    (degree)
    CuNi1 0.03 < 1000 8.9 200 1085
    CuNi2 0.05 < 1200 8.9 200 1090
    CuNi6 0.10 < 600 8.9 220 1095
    CuNi8 0.12 < 570 8.9 250 1097
    CuNi10 0.15 < 500 8.9 250 1100
    CuNi14 0.20 < 380 8.9 300 1115
    CuNi19 0.25 < 250 8.9 300 1135
    CuNi22 0.30 < 160 8.9 300 1150
    CuNi30 0.35 < 100 8.9 350 1170
    CuNi34 0.40 -0 8.9 350 1180
    CuNi40 0.48 ± 40 8.9 400 1280
    CuNi44 0.50 < -6 8.9 400 1280






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