Electrical Conductivity and Resistivity for Nickel and Nickel Alloys

Material

Conductivity

Resistivity

Reference

Notes
(% IACS) (Siemens/m) (Ohm-m) (See Below)

Nickel Alloys

  
Nickel 200 18.15 9.500E-08 MHASM2 conductivity converted from resistivity
Nickel 201 20.28 8.500E-08 MHASM2 conductivity converted from resistivity
Nickel 205 18.15 9.500E-08 MHASM2 conductivity converted from resistivity
Nickel 211 10.20 1.690E-07 MHASM2 conductivity converted from resistivity
Nickel 212 15.82 1.090E-07 MHASM2 conductivity converted from resistivity
Nickel 222 19.59 8.800E-08 MHASM2 conductivity converted from resistivity
Nickel 270 22.99 7.500E-08 MHASM2 conductivity converted from resistivity
Duranickel 301 (precipitation hardened) 4.07 4.240E-07 MHASM2 conductivity converted from resistivity
Alloy 400 3.15 5.470E-07 MHASM2 conductivity converted from resistivity
Alloy 401 3.53 4.890E-07 MHASM2 conductivity converted from resistivity
Alloy R-405 3.38 5.100E-07 MHASM2 conductivity converted from resistivity
Alloy 450 4.18 4.120E-07 MHASM2 conductivity converted from resistivity
Alloy K-500 (precipitation hardened) 2.80 6.150E-07 MHASM2 conductivity converted from resistivity
Alloy 230 1.38 1.250E-06 MHASM2 conductivity converted from resistivity
Alloy 600 1.67 1.030E-06 MHASM2 conductivity converted from resistivity
Alloy 601 1.45 1.190E-06 MHASM2 conductivity converted from resistivity
Alloy 617 (solution annealed) 1.41 1.220E-06 MHASM2 conductivity converted from resistivity
Alloy 625 1.34 1.290E-06 MHASM2 conductivity converted from resistivity
Alloy 690 1.50 1.148E-06 MHASM2 conductivity converted from resistivity
Alloy 718 (precipitation hardened) 1.38 1.250E-06 MHASM2 conductivity converted from resistivity
Alloy X750 1.41 1.220E-06 MHASM2 conductivity converted from resistivity
Alloy 751 1.41 1.220E-06 MHASM2 conductivity converted from resistivity
Alloy C-276 1.33 1.300E-06 MHASM2 conductivity converted from resistivity
Alloy HX (solution annealed) 1.49 1.160E-06 MHASM2 conductivity converted from resistivity
Alloy S (solution annealed) 1.35 1.280E-06 MHASM2 conductivity converted from resistivity
Alloy X 1.46 1.180E-06 MHASM2 conductivity converted from resistivity
Alloy 556 1.81 9.520E-07 MHASM2 conductivity converted from resistivity
Alloy 800 1.74 9.890E-07 MHASM2 conductivity converted from resistivity
Alloy 825 1.53 1.130E-06 MHASM2 conductivity converted from resistivity
Alloy 925 1.48 1.166E-06 MHASM2 conductivity converted from resistivity
20Cb3 1.59 1.082E-06 MHASM2 conductivity converted from resistivity
20Mo-4 1.63 1.056E-06 MHASM2 conductivity converted from resistivity
20Mo-6 1.59 1.082E-06 MHASM2 conductivity converted from resistivity
Alloy 902 (precipitation hardened) 1.69 1.020E-06 MHASM2 conductivity converted from resistivity
Alloy 903 (precipitation hardened) 2.83 6.100E-07 MHASM2 conductivity converted from resistivity
Alloy 907 (precipitation hardened) 2.47 6.970E-07 MHASM2 conductivity converted from resistivity
Alloy 909 (precipitation hardened) 2.37 7.280E-07 MHASM2 conductivity converted from resistivity
18% Nickel Sil 6.00 3.480E+06 2.874E-07 CSNDT  
  • CSNDT=CSNDT compiled by Eddy Current Technology Incorporated
  • MHASM2=ASM Metals Handbook--Volume 2, Tenth Edition

Compiled by the Collaboration for NDT Education, March 2002