采用区域熔炼液态金属冷却定向凝固法制备具有择优取向的Ni52Fe17Ga27Co4磁性形状记忆合金,借助OM,SEM和EBSD研究了稳定生长区的组织特征和择优取向.结果表明,在低温度梯度和高凝固速率下,晶体沿〈100〉方向生长,但生长不稳定,存在初生γ相;当提高温度梯度和降低凝固速率后,晶体沿〈110〉方向生长,柱状晶大小均匀,无γ相,室温时为沿(222)面取向的马氏体单相组织.马氏体孪晶孪生面为(110)和((1)10),内部无微孪晶;在马氏体组织中,观察到了条状分布的磁畴.理论分析结果表明,晶体稳定生长的条件为高的温度梯度和低的凝固速率.在该条件下获得了大体积稳定马氏体单变体区.
参考文献
| [1] | O'Handley R C.J Appl Phys,1998; 83:3263 |
| [2] | Planes A,Ma(n)osa L,Acet M.J Phys:Condens Matter,2009; 21:233201 |
| [3] | Liu J,Gottschall T,Skokov K P,Moore J D,Gutfleisch O.Nat Mater,2012; 11:620 |
| [4] | Pecharsky V K,Gschneidner Jr K A.J Magn Magn Mater,1999; 200:44 |
| [5] | Bonnot E,Romero R,Ma(n)osa L,Vives E,Planes A.Phys Rev Lett,2008; 100:125901 |
| [6] | Ullakko K.J Mater Eng Perform,1996; 5:405 |
| [7] | Sozinov A,Likhachev A A,Lanska N,Ullakko K.Appl Phys Lett,2002; 80:1746 |
| [8] | Krenke T,Duman E,Acet M,Wassermann E F,Moya X,Manosa L,Planes A.Nat Mater,2005; 4:450 |
| [9] | Morito H,Fujita A,Fukamichi K,Kainuma R,Ishida K,Oikawa K.Appl Phys Lett,2003; 83:4993 |
| [10] | Liu J,Xie H,Li J G.J Cryst Growth,2007; 300:272 |
| [11] | Li J Z,Huang B,Li J G.J Cryst Growth,2011; 317:110 |
| [12] | Liu J,Zheng H X,Huang Y L,Xia M X,Li J G.Scr Mater,2005; 53:29 |
| [13] | Liu J,Scheerbaum N,Hinz D,Gutfleisch O.Acta Mater,2008; 56:3177 |
| [14] | Morito H,Fujita A,Oikawa K,Fukamichi K,Kainuma R,Kanomata T,Ishida K.J Phys:Condens Matter,2009;21:076001 |
| [15] | Imano Y,Omori T,Oikawa K,Sutou Y,Kainuma R,Ishida K.Mater Sci Eng,2006; A438-440:970 |
| [16] | Liu J,Scheerbaum N,Hinz D,Gutfleisch O.Scr Mater,2008; 59:1063 |
| [17] | Chang C E,Wilcox W R.J Cryst Growth,1974; 21:135 |
| [18] | Bleay J,Hooper R M,Narang R S,Sherwood J N.J Cryst Growth,1978; 43:589 |
| [19] | Souptel D,L(o)ser W,Behr G.J Cryst Growth,2007; 300:538 |
| [20] | Jiang C B,Liu J H,Wang J M,Xu L H,Xu H B.Acta Mater,2005; 53:1111 |
| [21] | Liang T,Jiang C B,Xu H B,Liu Z H,Zhang M,Cui Y T,Wu G H.J Magn Magn Mater,2004; 268:29 |
| [22] | Masdeu F,Pons J,Santamarta R,Cesari E,Dutkiewicz J.Mater Sci Eng,2008; A481-482:101 |
| [23] | Morito H,Fujita A,Oikawa K,Ishida K,Fukamichi K,Kainuma R.Appl Phys Lett,2007; 90:062505 |
| [24] | Zheng H X,Xue S C,Wu D Z,Zhai Q J.J Alloys Compd,2011; 509:8333 |
| [25] | Xie H,Liu J,Huo Y Q,Li J G.Acta Metall Sin,2007; 43:417(谢华,刘剑,霍颜秋,李建国.金属学报,2007; 43:417) |
| [26] | Brown P J,Gandy A P,Ishida K,Kainuma R,Kanomata T,Morito H,Neumann K U,Oikawa K,Ziebeck K R A.J Phys:Condens Matter,2007; 19:016201 |
| [27] | Pons J,Chernenko V A,Santamarta R,Cesari E.Acta Mater,2000; 48:3027 |
| [28] | Hu H Q.Theory of Metal Solidification.Beijing:China Machine Press,2000:117(胡汉起.金属凝固原理.北京:机械工业出版社,2000:117) |
| [29] | Ducher R,Kainuma R,Ishida K.J Alloys Compd,2008;463:213 |
| [30] | Ge Y.PhD Dissertation,Helsinki University of Technology,2007 |
| [31] | Acet M.Nat Mater,2009; 8:854 |
| [32] | Chulist R,Skrotzki W,Oertel C G,B(o)hm A,P(o)tschke M.Scr Mater,2010; 63:548 |
| [33] | Ge Y,Jiang H,Sozinov A,S(o)derberg O,Lanska N,Ker(a)nen J,Kauppinen E I,Lindroos V K,Hannula S-P.Mater Sci Eng,2006; A438-440:961 |
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