Title :
Influence of Crystal Orientation on Magnetic Properties in 3% Silicon Steel With Ultra-High Tension TiN Coating
Author :
Shingaki, Y. ; Okabe, S.
Author_Institution :
JFE Steel Corp., Kurashiki, Japan
fDate :
4/1/2012 12:00:00 AM
Abstract :
The influence of the tile angle of the [001] out of crystal surface β on iron loss improvement of 3% Si steel single crystals was investigated. This iron loss improvement was caused by tensile stress effect of TiN coating and domain refinement. When β angle was less than 3 degrees, both eddy current loss and hysteresis loss decrease. Extremely low iron loss was obtained, when β angle equal to about 2 degrees. On the other hand, when β angle is more than 3 degrees, the hysteresis loss increased though the eddy current loss decreased by TiN coating. As a result, change in iron loss was small after TiN coating and domain refining. Therefore, it was clarified that the iron loss improving methods, such as domain refining and ultra-high tension coating, were effective especially in grain oriented electrical steel whose β angle is less than 3 degrees.
Keywords :
coatings; crystal orientation; eddy current losses; magnetic domains; magnetic hysteresis; tensile strength; titanium compounds; β angle; TiN; crystal orientation; crystal surface; domain refinement; eddy current loss; grain oriented electrical steel; hysteresis loss; magnetic properties; silicon steel; tensile stress effect; tile angle; ultra-high tension coating; Coatings; Iron; Magnetic domains; Magnetic hysteresis; Steel; Tensile stress; Tin; $beta$ angle; Grain oriented electrical steel; TiN coating; iron loss; tensile stress;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2011.2173925
