Effects of Applied Magnetic Field on Corrosion of Beryllium Copper in NaCl Solution

Abstract

Abstract:

The effects of an applied magnetic field on the corrosion process of beryllium copper in NaCl solution have been investigated by electrochemical measurements, scanning electron microscopy (SEM) and energy dispersive spectroscopy (EDS). The results showed that a horizontal magnetic field with 0.4 T barely shifted the open circuit potentials (E_corr) of beryllium copper in NaCl solution with different concentrations. However, the horizontal magnetic field increased the limiting current density of beryllium copper in NaCl solution with low concentration, while decreased the limiting current density of beryllium copper in NaCl solution with high concentration. It was found that magnetic field accelerated the diffusion of CuCl^2- away from the electrode surface and delayed the formation of Cu₂O. The results of SEM and EDS showed that the influence of magnetic
field over the elements distribution of the corrosion products differed from the di®erent concentration of the immersion solution.

Key words: Beryllium copper, Magnetic field, Corrosion

Jing Hu Chaofang Dong Xiaogang Li Kui Xiao. Effects of Applied Magnetic Field on Corrosion of Beryllium Copper in NaCl Solution[J]. J Mater Sci Technol, 2010, 26(4): 355-361.

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Effects of Applied Magnetic Field on Corrosion of Beryllium Copper in NaCl Solution

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