6.5%(质量分数)Si高硅钢具有优异的软磁性能和广阔的应用前景,然而其室温脆性和低的热加工性极大地制约了它的发展.近年来,人们对高硅钢制备技术的研究已经取得了很大的进展,如何通过织构的优化提高高硅钢的磁性能越来越受到人们的关注,归纳和总结了不同工艺制备的高硅钢中的织构演变规律和特点,以及对应的典型磁性能.
参考文献
| [1] | Shin SM;Birosca S;Chang SK;De Cooman BC .Texture evolution in grain-oriented electrical steel during hot band annealing and cold rolling[J].Journal of Microscopy,2008(Pt.3):414-423. |
| [2] | 何忠治.电工钢[M].北京:冶金工业出版社,2012 |
| [3] | 赵宇;何忠治 .取向硅钢二次再结晶机理研究的进展[J].钢铁研究学报,1991,3(04):79. |
| [4] | Rajmohan N;Szpunar J A;Hayakawa Y .Goss texture development in FeSi steels[J].Textures Microstructures,1999,32:153. |
| [5] | Kyung-Jun Ko;Pil-Ryung Cha;David Srolovitz .Abnormal grain growth induced by sub-boundary-enhanced solid-state wetting: Analysis by phase-field model simulations[J].Acta materialia,2009(3):838-845. |
| [6] | 杨平,李志超,毛卫民,赵子苏.钢中{111}〈112〉再结晶织构的形成[J].材料热处理学报,2009(03):46-52. |
| [7] | 安治国,侯金海,刘宏强,侯环宇,汪玲玲,张鹏.低铁损高磁通密度无取向硅钢的应用与生产技术进展[J].热加工工艺,2013(14):6-7,10. |
| [8] | 热轧组织对无取向硅钢织构的影响[J].热加工工艺,2012(24):38-40. |
| [9] | 张勇路,曾燕屏.热轧板常化后的晶粒尺寸对冷轧无取向硅钢组织、织构和磁性能的影响[J].热加工工艺,2012(06):1-3. |
| [10] | 林均品,叶丰,陈国良,王艳丽,梁永锋,金吉男,刘艳.6.5wt%Si高硅钢冷轧薄板制备工艺、结构和性能[J].前沿科学,2007(02):13-26. |
| [11] | 杨劲松,谢建新,周成.6.5%Si高硅钢的制备工艺及发展前景[J].功能材料,2003(03):244-246. |
| [12] | Ruiz D;Rivera-Tovar J L;Segers D et al.Aging phenomena in high-Si steels studied by internal friction[J].Material Science and Engineering,2006,442:462. |
| [13] | 郑鑫;严彪 .Fe-6.5Si高硅钢的性能及制备技术[J].材料导报:综述篇,2012,26(10):392. |
| [14] | 高田芳一.高功能硅钢片(6.5%Si)的特性及应用[J].国外钢铁,1990(09):63. |
| [15] | 谢燮揆 .高硅电工钢[J].中小型电机,1994,21(03):60. |
| [16] | Kim K N;Pan L M;Lin J P et al.The effect of boron content on the processing for Fe-6.5wt% Si electrical steel sheets[J].Journal of Magnetism and Magnetic Materials,2004,277:331. |
| [17] | Liu H T;Liu Z Y;Qiu Y Q et al.Microstructure,texture and magnetic properties of strip casting Fe-6.2wt%Si steel sheet[J].J Mater Process Techn,2012,212:1941. |
| [18] | Liu H T;Liu Z Y;Sun Y et al.Development of λ-feiber rectystallization texture and magnetic property in Fe6.5 wt%Si thin sheet produced by casting and warm rolling method[J].Materials Letters,2013,91:150. |
| [19] | Takada Y;Abe M;Masuda S et al.Commercial scale production of Fe-6.5wt.% Si sheet and its magnetic properties[J].Journal of Applied Physics,1988,64(10):5367. |
| [20] | Haiji H;Okada K;Hiratani T et al.Magnetic properties and workability of 6.5% Si steel sheet[J].Journal of Magnetism and Magnetic Materials,1996,160:109. |
| [21] | Namikawa M;Ninomiya H;Yamaji T .High silicon steel sheets realizing excellent high frequence reactor performance[J].JFE Techn Report,2005,10(06):12. |
| [22] | Tsuya N;Arai K I .Magnetostriction of ribbon-form amorphous and crystalline ferromagnetic alloys[J].Journal of Applied Physics,1979,50(03):1658. |
| [23] | Kasama A H;Bolfarini C;Kiminami C S et al.Magnetic properties evaluation of spray formed and rolled Fe6.5 wt.% Si-1.0 wt.% Al alloy[J].Material Science and Engineering,2007,449-451:375. |
| [24] | Cherigui M;Fenineche N E;Ji G et al.Microstructure and magnetic properties of Fe-Si-based coatings produced by HVOF thermal spraying process[J].Journal of Alloys and Compounds,2007,427:281. |
| [25] | Li R;Shen Q;Zhang LM;Zhang T .Magnetic properties of high silicon iron sheet fabricated by direct powder rolling[J].Journal of Magnetism and Magnetic Materials,2004(2/3):135-139. |
| [26] | 王蕾,周树清,陈大凯.PCVD法制作高硅硅钢片的研究[J].热加工工艺,2000(06):46-47. |
| [27] | 吴润;张细菊;吴新杰 等.PCVD法制6.5%Si电工钢的研究[J].表面技术,1997,26(04):14. |
| [28] | Li X;He X D;Li Y .Numerical modeling for electron-beam evaporated process of magnetic alloy Fe-6.5% Si[J].Transact Nonferrous Metals Soc China,2005,15(03):295. |
| [29] | Jon M A;Carmen G R;Javier G S .Si enrichment of conventional electrical steel by means of physical vapor deposition[J].Scripta Materialia,1999,41(07):729. |
| [30] | Tian G K;Bi X F .Fabrication and magnetic properties of Fe-6.5% Si alloys by magnetron sputtering method[J].Journal of Alloys and Compounds,2010,502:1. |
| [31] | 吴隽.高硅取向梯度硅钢薄板的制备及结构研究[A].北京,2009:81. |
| [32] | Ros-Yanez T.;Houbaert Y.;Rodriguez VG. .High-silicon steel produced by hot dipping and diffusion annealing[J].Journal of Applied Physics,2002(10 Pt.3):7857-7859. |
| [33] | Ros Ya(n)ez T;Ruiz D;Barros J et al.Advances in the production of high-silicon electrical steel by thermomechanical processing and by immersion and diffusion annealing[J].Journal of Alloys and Compounds,2004,369:125. |
| [34] | Dong D Y et al.Pulsed Nd:YAG laser cladding of high silicon content coating on low silicon steel[J].J University of Science and Technology Beijing,2007,14(04):321. |
| [35] | 游涛,黄璞,冯大军,张恒.扩散工艺对6.5%WtSi高硅钢性能的影响[J].武汉工程职业技术学院学报,2005(03):1-3,68. |
| [36] | 蔡宗英,张莉霞,李运刚.电化学还原法制备Fe-6.5%Si薄板[J].湿法冶金,2005(02):83-87. |
| [37] | Honma H;Ushigami Y;Suga Y .Magnetic properties of (110)[001]grain oriented 6.5% silicon steel[J].Journal of Applied Physics,1991,70(10):6259. |
| [38] | Zhang Z W;Chen G;Bei H et al.Improvement of magnetic properties of an Fe-6.5wt%Si alloy by directional recrystallization[J].Applied Physics Letters,2008,93(19):191908. |
| [39] | Xie J X;Fu H D;Zhang Z H 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[J].INTERMETALLICS,2012,23:20. |
| [40] | Ros Ya(n)ez T;Houbaert Y;Fischer O et al.Production of high silicon steel for electrical applications by thermomechanical processing[J].J Mater Process Techn,2003,143-144:916. |
| [41] | 房现石,梁永锋,叶丰,林均品.压下率对6.5%Si电工钢温轧板织构的影响规律[J].功能材料,2012(24):3346-3350. |
| [42] | 刘艳,梁永锋,叶丰,林均品,陈国良.冷轧0.02C-6.56Si高硅钢薄板的力学和磁性能[J].特殊钢,2007(03):28-29. |
| [43] | 梁永锋,林均品,叶丰,王艳丽,陈国良.大变形冷轧Fe-6.5 %(质量)Si高硅钢薄板组织性能的研究[J].金属功能材料,2010(02):43-47. |
| [44] | 柳金龙,沙玉辉,张芳,姚勇创,李继超,左良.高硅钢薄板退火过程中的织构演变[J].功能材料,2011(11):2089-2091. |
| [45] | Liu J L;Sha Y H;Zhang F et al.Development of {210} 《001》 recrystallization texture in Fe-6.5wt% Si thin sheets[J].Scripta Materialia,2011,65:292. |
| [46] | Liang ZUO,Guangyong HU,Yuhui SHA,Claude ESLING.Texture Evolutions in Fe-6.5%Si Produced by Rapid Solidification and Chemical Vapor Deposition[J].材料科学技术学报(英文版),2002(06):516-518. |
| [47] | 胡广勇;左良;武保林 等.沉积-扩散法制Fe-6.5%Si薄板的织构研究[J].金属学报,1998,34(05):506. |
| [48] | He XD;Li X;Sun Y .Microstructure and magnetic properties of high silicon electrical steel produced by electron beam physical vapor deposition[J].Journal of Magnetism and Magnetic Materials,2008(3/4):217-221. |
| [49] | Fish G E;Chang C F;Bye R .Frequency dependence of core loss in rapid quenched Fe-6.5wt %Si[J].Journal of Applied Physics,1988,64(10):5730. |
| [50] | Nakano M;Fukunaga H;Ishiyama K et al.Preparation of 6.5% silicon steel sheets with (100) texture[J].Materials Science Forum,2001,373-376:745. |
| [51] | 胡广勇,左良,程力智,梁志德.快凝速度对淬态Fe-6.5%Si薄带积的影响[J].金属功能材料,1998(05):207. |
| [52] | Ken I A;Kenji O .Grain growth characteristics and magnetic properties of rapidly quenched silicon steel ribbons[J].METALLURGICAL TRANSACTIONS A-PHYSICAL METALLURGY AND MATERIALS SCIENCE,1986,17:1295. |
| [53] | Machado R;Kasama A H;Jorge A M et al.Evolution of the texture of spray-formed Fe-6.5wt%Si-1.0wt% Al alloy during warm-rolling[J].Material Science and Engineering,2007,449-451:854. |
| [54] | Claudio C L;Mário C A S;Maria D C S et al.Effects of order-disorder reactions on rapidly quenched Fe-6.5 % Si alloy[J].Journal of Alloys and Compounds,2014,586(z1):5314. |
| [55] | Tanya Ros-Yanez;Yvan Houbaert;Marc De Wulf .Evolution of Magnetic Properties and Microstructure of High-Silicon Steel During Hot Dipping and Diffusion Annealing[J].IEEE Transactions on Magnetics,2002(5):3201-3203. |
| [56] | Houbaert Y;Ros-Yanez T;Monsalve A;Lorenzo JB .Texture evolution in experimental grades of high-silicon electrical steel[J].Physica, B. Condensed Matter,2006(1/2):310-312. |
| [57] | Barrosa J et al.Texture development during the production of high Si steel by hot dipping and diffusion annealing[J].Journal of Magnetism and Magnetic Materials,2006,304:614. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%