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Nicr20alsi Karma Nickel chorme Aluminum Alloy Wire for Precision Resistors (0.02mm, 0.03mm, 0.04mm)

Short Description:

Product Description

These enameled resistance wires have been broadly used for standard resistors, automobile
parts, winding resistors, etc. using the insulation processing best suited for these applications, taking full advantage of the distinctive features of enamel coating.

Furthermore, we will carry out enamel coating insulation of precious metal wire such as silver and platinum wire upon order. Please make use of this production-on-order.


  • Model NO.: Karma
  • Resisivity: 1.33 ohm mm2/m
  • Chemical Composition: 80%Ni
  • Specification: 0.02-10.0mm
  • Density: 8.1g/cm3
  • Density: 75052200
  • Production Capacity: 50Ton/M
  • The Highest Use Temperature: 1300C
  • Product Detail

    FAQ

    Product Tags

     Karma size

    Wire: 0.01mm-10mm
    Ribbon: 0.05*0.2mm-2.0*6.0mm
    Strip: 0.5*5.0mm-5.0*250mm
    3.Karma  Property

      name  code                          Main Composition (%) Standard

     

    Cr Al Fe Ni
     Karma  6J22 19~21 2.5~3.2 2.0~3.0  bal. JB/T 5328

     

    Name Code  (20ºC)
    Resistivity
    (μΩ.m)
      (20ºC)
    Temp. Coeff.Of Resistance
    (αX10-6/ºC)
    (0~100ºC)
    ThermalEMF vs.

    Copper
    (μv/ºC)

    Max.working
    Temp.(ºC)
    (%)
    Elongation
    (N/mm2)
    Tensile
    Strength
    Standard
    Karma 6J22 1.33±0.07 ≤±20 ≤2.5 ≤300 >7 ≥780 JB/T 5328

    4. Distinctive features of Karma resistance wire

    1) Starting with Nickel Chromium electric heat wire Class 1, we replaced some of the Ni with
    Al and other elements, and thus achieved a precision resistance material with improved
    resistance temperature coefficient and heat electromotive force against copper.
    With the addition of Al, we have succeeded in making volume resistivity 1.2 times greater
    than Nickel Chromium electric heat wire Class 1 and the tensile strength 1.3 times greater.

    2) The secondary temperature coefficient β of Karmalloy wire KMW is very small, - 0.03 × 10-6/ K2,

    and the resistance temperature curve turns out to be almost a straight line within a wide
    temperature range.

    Therefore, the temperature coefficient is set to be the average temperature coefficient between
    23 ~ 53 °C, but 1 × 10-6/K, the average temperature coefficient between 0 ~ 100 °C, also may
    be adopted for the temperature coefficient.

    3) Electromotive force against copper between 1 ~ 100 °C is also small, below + 2 μV/K, and

    exhibits excellent stability over a period of many years.

    4) If this is to be used as a precision resistance material, low temperature heat treatment is
    required to eliminate processing distortions just as in the case of Manganin wire CMW.


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