Journal or Book Title
Journal of Applied Physics
The current study was undertaken to explore the possibility of detecting hydrogen cavitation in magnetic materials through magnetic propertymeasurements. It is known that dissolved hydrogen in a material causes microvoids. These voids may affect the structure‐sensitive magnetic properties such as coercivity and remanence. In this study, hydrogen was introduced into nickel and iron by two processes, namely thermal charging and cathodic charging. The effect on the magnetic properties was measured. In addition, the variation of the magnetic properties with porosity was studied.
Copyright 1996 American Institute of Physics. This article may be downloaded for personal use only. Any other use requires prior permission of the author and the American Institute of Physics.
American Institute of Physics
Ramesh, A.; Govindaraju, Madhav Rao; Jiles, David C.; Biner, S. B.; and Roderick, J. M., "Hydrogen charging in nickel and iron and its effect on their magnetic properties" (1996). Materials Science and Engineering Publications. 110.