MEASUREMENT OF ELECTRICAL RESISTIVITY OF MOLTEN IRON, COBALT, AND NICKEL BY IMPROVED FOUR-PROBE METHOD.

Yoshifumi Kita; Shigeru Ohguchi; Zen ichiro Morita

Journal ArticleOPEN ACCESS

MEASUREMENT OF ELECTRICAL RESISTIVITY OF MOLTEN IRON, COBALT, AND NICKEL BY IMPROVED FOUR-PROBE METHOD.

Tetsu-To-Hagane/Journal of the Iron and Steel Institute of Japan (1978) 64(6) 711-719

DOI: 10.2355/tetsutohagane1955.64.6_711

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Abstract

The electrical resistivity obtained in the temperature range from melting point to about 1660 degree C (iron) and 1620 degree C (cobalt and nickel), showed a linear dependency on temperature as represented by the following equations: Fe: rho ( mu OMEGA . cm) equals 0. 0154 t( degree C) plus 112. 3; Co: rho ( mu OMEGA . cm) equals 0. 0192 t( degree C) plus 91. 8 and Ni: rho ( mu OMEGA . cm) equals 0. 0116 t( degree C) plus 70. 2.

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Kita, Y., Ohguchi, S., & Morita, Z. ichiro. (1978). MEASUREMENT OF ELECTRICAL RESISTIVITY OF MOLTEN IRON, COBALT, AND NICKEL BY IMPROVED FOUR-PROBE METHOD. Tetsu-To-Hagane/Journal of the Iron and Steel Institute of Japan, 64(6), 711–719. https://doi.org/10.2355/tetsutohagane1955.64.6_711

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MEASUREMENT OF ELECTRICAL RESISTIVITY OF MOLTEN IRON, COBALT, AND NICKEL BY IMPROVED FOUR-PROBE METHOD.

Abstract

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Constant electrical resistivity of Ni along the melting boundary up to 9 GPa

Thermophysical Properties of Liquid Cobalt

The physical properties of alloys in the liquid and "mushy" states

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