Two-stage warm cross rolling and its effect on the microstructure, texture and magnetic properties of an Fe-6.5 wt% Si non-oriented electrical steel
暂无分享,去创建一个
S. Yue | Youliang He | Jian-ping Li | Yunbo Xu | H. Jiao | Haijie Xu | Sifei Cheng
[1] L. Kestens,et al. The evolution of cube ({001}<100>) texture in non-oriented electrical steel , 2020 .
[2] Kay Hameyer,et al. Effect of grain size and magnetic texture on iron-loss components in NO electrical steel at different frequencies , 2019, Journal of Magnetism and Magnetic Materials.
[3] I. Beyerlein,et al. Texture simulation of a severely cold rolled low carbon steel using polycrystal modeling , 2018, International Journal of Plasticity.
[4] R. Misra,et al. Influence of grain size and texture prior to warm rolling on microstructure, texture and magnetic properties of Fe-6.5 wt% Si steel , 2018 .
[5] W. Xiong,et al. High-permeability and thin-gauge non-oriented electrical steel through twin-roll strip casting , 2017 .
[6] R. Misra,et al. Evolution of microstructure and texture in grain-oriented 6.5%Si steel processed by strip-casting , 2017 .
[7] Youliang He,et al. Skew rolling and its effect on the deformation textures of non-oriented electrical steels , 2017 .
[8] Leo Kestens,et al. Texture evolution during skew cold rolling and annealing of a non-oriented electrical steel containing 0.9 wt% silicon , 2017, Journal of Materials Science.
[9] Mao Weimin,et al. Formation of a sharp {100} ( 011 ) texture in Fe-3 %Si-1.7 %Mn-0.05 %C silicon steel sheets , 2016 .
[10] R. Misra,et al. Inhibitor induced secondary recrystallization in thin-gauge grain oriented silicon steel with high permeability , 2016 .
[11] Jinlong Liu,et al. Texture and Microstructure for Magnetic Properties of Two-Stage Cold-Rolled Fe-6.5 Wt Pct Si Thin Sheets , 2016, Metallurgical and Materials Transactions A.
[12] W. Mao,et al. Effect of texture and grain size on the magnetic flux density and core loss of cold-rolled high silicon steel sheets , 2015 .
[13] Youliang He,et al. Texture Evolution of a Non-oriented Electrical Steel Cold Rolled at Directions Different from the Hot Rolling Direction , 2015, Metallurgical and Materials Transactions A.
[14] M. R. Toroghinejad,et al. Effect of deformation route and intermediate annealing on magnetic anisotropy and magnetic properties of a 1 wt% Si non-oriented electrical steel , 2015 .
[15] Hai‐Tao Liu,et al. Effects of warm temper rolling on microstructure, texture and magnetic properties of strip-casting 6.5 wt% Si electrical steel , 2014 .
[16] Kyong Sei Lee,et al. Effect of texture and grain size on magnetic flux density and core loss in non-oriented electrical steel containing 3.15% Si , 2014 .
[17] Zhen-Yu Liu,et al. Characterization of microstructure, texture and magnetic properties in twin-roll casting high silicon non-oriented electrical steel , 2014 .
[18] Christopher R. Weinberger,et al. Slip planes in bcc transition metals , 2013 .
[19] L. Kestens,et al. Occurrence of shear bands in rotated Goss ({1 1 0}〈1 1 0〉) orientations of metals with bcc crystal structure , 2012 .
[20] L. Kestens,et al. Recrystallized {3 1 1}〈1 3 6〉 orientation in ferrite steels , 2012 .
[21] F. Roters,et al. Orientation dependence of shear banding in face-centered-cubic single crystals , 2012 .
[22] Huadong Fu,et al. Deformation twinning feature and its effects on significant enhancement of tensile ductility in columnar-grained Fe–6.5wt.%Si alloy at intermediate temperatures , 2012 .
[23] 杨平,et al. 轧制方向对Fe-3\%Si合金织构演变规律的影响 , 2011 .
[24] G. Chen,et al. Effect of annealing temperature on magnetic properties of cold rolled high silicon steel thin sheet , 2010 .
[25] M. Cunha,et al. The influence of shear bands on final structure and magnetic properties of 3% Si non-oriented silicon steel , 2008 .
[26] S. Kalidindi,et al. Thermomechanical Processing for Recovery of Desired $$ {\left\langle {001} \right\rangle } $$ Fiber Texture in Electric Motor Steels , 2008 .
[27] Leo Kestens,et al. Texture Control During the Manufacturing of Nonoriented Electrical Steels , 2008 .
[28] W. Hutchinson. Deformation Substructures and Recrystallisation , 2007 .
[29] I. Samajdar,et al. Low silicon non-grain-oriented electrical steel : Linking magnetic properties with metallurgical factors , 2007 .
[30] D. Raabe,et al. Retention of the Goss orientation between microbands during cold rolling of an Fe3%Si single crystal , 2007 .
[31] C. Maurice,et al. The role of shear banding on deformation texture in low stacking fault energy metals as characterized on model Ag crystals , 2007 .
[32] D. Raabe,et al. Overview of Microstructure and Microtexture Development in Grain-oriented Silicon Steel , 2006 .
[33] Shuichi Nakamura,et al. On {h,1,1}<1/h,1,2>, the Recrystallisation Texture of Heavily Cold Rolled BCC Steel , 2004 .
[34] B. Duggan,et al. Deformation banding and recrystallization of α fibre components in heavily rolled IF steel , 2004 .
[35] J. T. Park,et al. Evolution of recrystallization texture in nonoriented electrical steels , 2003 .
[36] J. Jonas,et al. Microtextural study of orientation change during nucleation and growth in a cold rolled ULC steel , 2003 .
[37] M. Takashima,et al. {001} Texture Development by Two-stage Cold RollingMethod in Non-oriented Electrical Steel , 1997 .
[38] T. Kubota,et al. The effect of cold rolling parameters on the recrystallization texture of non-oriented electrical steel , 1997 .
[39] C. Maurice,et al. Hot rolling textures of f.c.c. metals—Part I. Experimental results on Al single and polycrystals , 1997 .
[40] C. Hou. Effect of silicon on the loss separation and permeability of laminated steels , 1996 .
[41] O. Engler,et al. Formation of Cu-type shear bands and their influence on deformation and texture of rolled f.c.c. {112}〈111〉 single crystals , 1995 .
[42] D. Raabe. Simulation of rolling textures of b.c.c. metals considering grain interactions and crystallographic slip on {110}, {112} and {123} planes , 1995 .
[43] D. Raabe,et al. On the Influence of Cross-Rolling on Shear Band Formation and Texture Evolution in Low Carbon Steel Sheets , 1995 .
[44] J. Jonas,et al. Cold rolling and annealing textures in low carbon and extra low carbon steels , 1994 .
[45] D. Raabe,et al. Rolling and Recrystallization Textures of BCC Steels , 1991 .
[46] D. A. Hughes,et al. Microstructural evolution in nickel during rolling and torsion , 1991 .
[47] P. Houtte,et al. The effect of cross rolling on texture and magnetic-properties of nonoriented electrical steels , 1991 .
[48] T. Senuma,et al. Textures of low carbon and titanium bearing extra low carbon steel sheets hot rolled below their AR3 temperatures , 1990 .
[49] J. Jonas,et al. Development of ferrite rolling textures in low- and extra low-carbon steels , 1990 .
[50] Y. Kurosaki,et al. The effects of grain size on the magnetic properties of nonoriented electrical steel sheets , 1989 .
[51] Fausto Fiorillo,et al. ON THE EFFECT OF GRAIN SIZE ON MAGNETIC LOSSES OF 3% NON-ORIENTED SiFe , 1985 .
[52] P. Van Houtte,et al. Simulation of the rolling textures of b.c.c. metals by means of the relaxed taylor theory , 1985 .
[53] I. Dillamore,et al. Occurrence of shear bands in heavily rolled cubic metals , 1979 .
[54] H. Inagaki,et al. The Development of Rolling Textures in Low-Carbon Steels , 1972 .
[55] I. L. Dillamore,et al. PREFERRED ORIENTATION IN WROUGHT AND ANNEALED METALS , 1965 .
[56] W. T. Roberts,et al. Rolling textures in f.c.c. and b.c.c. metals , 1964 .
[57] L. P. Tarasov. Ferromagnetic Anisotropy of Iron and Iron-Rich Silicon Alloys , 1939 .