Cite this article as: |
Xiao-long Wu, Xia Li, Ping Yang, Zhi-wei Jia, and Hai-li Zhang, Analysis of oxide layer structure in nitrided grain-oriented silicon steel, Int. J. Miner. Metall. Mater., 26(2019), No. 12, pp. 1531-1538. https://doi.org/10.1007/s12613-019-1850-5 |
Ping Yang E-mail: yangp@mater.ustb.edu.cn
[1] |
K. Eloot, J. Dilewijns, C. Standaert, and B.C. De Cooman, Evaluation of the susceptibility of an electrical steel to magnetic aging using a new internal friction technique, J. Magn. Magn. Mater., 133(1994), No. 1-3, p. 223.
|
[2] |
H.J. Wang, Z. Rong, L. Xiang, S.T. Qiu, J.X. Li, and T.L. Dong, Effect of decarburization annealing temperature and time on the carbon content, microstructure, and texture of grain-oriented pure iron, Int. J. Miner. Metall. Mater., 24(2017), No. 4, p. 393.
|
[3] |
R.B. Puzhevich, V.G. Borisenko, and L.A. Shvartsman, Reaction of a thermal insulating coating with the surface of electrical engineering steel during high-temperature annealing, Met. Sci. Heat Treat., 28(1986), No. 9, p. 687.
|
[4] |
H. Fujii, S. Yamazaki, T. Nagashima, H. Kobayashi, H. Masui, and M. Shiozaki, Glass film structure of grain-oriented silicon steel using aluminum nitride as an inhibitor, J. Mater. Eng. Perform., 3(1994), No. 2, p. 214.
|
[5] |
C.C. Silveira, M.A. da Cunha, and V.T.L. Buono, The influence of internal oxidation during decarburization of a grain oriented silicon steel on the morphology of the glass film formed at high temperature annealing, J. Magn. Magn. Mater., 358-359(2014), p. 65.
|
[6] |
S. Yamazaki, F. Takahashi, T. Kubota, and K. Yanagihara, Internal oxidation of Fe-3%Si alloys annealed under H2O-H2 atmosphere, Mater. Corros., 62(2011), No. 6, p. 476.
|
[7] |
M.M. Maria das Gracas and M.J. Mantel, Effect of the temperature and dew point of the decarburization process on the oxide subscale of a 3% silicon steel, J. Magn. Magn. Mater., 254-255(2003), p. 337.
|
[8] |
Y.J. Fu, Q.W. Jiang, B.C. Wang, P. Yang, and W.X. Jin, Morphologies and influential factors of forsterite film in grain-oriented silicon steel, J. Iron Steel Res. Int., 20(2013), No. 11, p. 105.
|
[9] |
K. Yanagihara, S. Suzuki, and S. Yamazaki, Microscopic features in the transition from external to internal oxidation in an Fe-6 mol.% Si alloy annealed under various H2O-H2 atmospheres, Oxid. Met., 57(2002), No. 3-4, p. 281.
|
[10] |
S. Jung, M.S. Kwon, J. Park, S.B. Kim, and Y. Huh, A TEM study of oxide layers formed during decarburization annealing of electrical steel, ISIJ Int., 51(2011), No. 7, p. 1163.
|
[11] |
M. Diéz-Ercilla, T. Ros-Yáñez, R. Petrov, Y. Houbaert, and R. Colás, Oxidation of silicon steels, Corros. Eng. Sci. Technol., 39(2004), No. 4, p. 295.
|
[12] |
Y. Inokuti, K. Suzuki, and Y. Kobayashi, Grain oriented silicon steel sheet with new ceramic films characterized by ultra-low iron loss, Mater. Tran., JIM, 33(1992), No. 10, p. 946.
|
[13] |
G. Lyudkovsky, A.G. Preban, and J.M. Shapiro, The influence of annealing conditions on the internal oxidation and magnetic properties of silicon-aluminum bearing electrical steels, J. Appl. Phys., 53(1982), No. 3, p. 2419.
|
[14] |
S. Jung, M.S. Kwon, S.B. Kim, and K.S. Shin, Characterization of chemical information and morphology for in-depth oxide layers in decarburized electrical steel with glow discharge sputtering, Surf. Interface Anal., 45(2013), No. 7, p. 1119.
|
[15] |
W.F. Block and N. Jayaraman, Reactions during decarburization annealing of electrical steel, Mater. Sci. Technol., 2(1986), No. 1, p. 22.
|
[16] |
S. Jung, J. Park, M. Han, and S.B Kim, Rapid quantitative analysis of fayalite and silica formed during decarburization of electrical steel, Surf. Interface Anal., 44(2012), No. 3, p. 270.
|
[17] |
D. Poultney and D. Snell, Evaluation of oxide layers formed during the decarburisation of grain-oriented electrical steel using a Fourier transform infrared (FTIR) technique, J. Magn. Magn. Mater., 320(2008), No. 20, p. e645.
|
[18] |
H. Toda, K. Sato, and M. Komatsubara, Characterization of internal oxide layers in 3% Si grain-oriented steel by electrochemical methods, J. Mater. Eng. Perform., 6(1997), No. 6, p. 722.
|
[19] |
T. Kumano, T. Haratani, and Y. Ushigami, The improvement of primary texture for sharp Goss orientation on grain oriented silicon steel, ISIJ Int., 43(2003), No. 5, p. 736.
|
[20] |
H.A. Wriedt, N.A. Gokcen, and R.H. Nafziger, The Fe-N (iron-nitrogen) system, Bull. Alloy Phase Diagrams, 8(1987), No. 4, p. 355.
|