固溶处理后的2组304不锈钢样品分别经应变量ε=2的多向锻造(MF)和单向轧制(DR)后,再经900℃高温退火2-120 min.采用电子背散射衍射(EBSD)技术和五参数晶界面分析方法(FPA),研究了样品的晶界特征分布(GBCD)和晶界面分布(GBPD).结果表明,2组样品中∑3n(n=1,2,3)特殊晶界的比例均不超过45%,并且在退火过程中,非共格∑3晶界逐渐共格化,Σ9和∑27晶界比例也随之下降.分别经MF和DR处理后再经120 min退火的样品中,一般大角度晶界(过滤掉Σ3n)一般均以〈111〉扭转晶界和〈110〉倾侧晶界为主,表明样品中均存在明显的晶界织构(GBT);在某些特定取向差条件下,一般大角度晶界的GBPD在样品中存在显著差异,表明退火之前的加工过程对304不锈钢的GBPD有显著影响.
参考文献
| [1] | Shimada M,Kokawa H,Wang Z J,Saro Y S,Karibe I.Acta Mater,2002; 50:2331 |
| [2] | Lin P,Palumbo G,Erb U,Aust K T.Scr Metall Mater,1995; 33:1387 |
| [3] | Yin Y F,Faulkner R G.Mater Sei Technol,1997; 21:123 |
| [4] | Watanabe T.Res Mech,1984; 11:47 |
| [5] | Palumbo G,Lehoceky E M,Lin P.JOM,1998; 50:40 |
| [6] | Trillo E,Murr L.J Mater Sci,1998; 33:1263 |
| [7] | Fang X Y,Wang W G,Guo H,Zhang X,Zhou B X.J Iron Steel Res,2007; 14:339 |
| [8] | Pandle V.Scr Mater,2006; 54:1011 |
| [9] | Poulsen H F,Nielsen S F,Lauridsen E M,Schmidt S,Suter R M,Lienert U,Margulies L,Lorentzen T,Juul J D.J Appl Cryst,2001; 34:751 |
| [10] | Fu X,Poulsen H F,Schmidt S,Nielsen S F,Lauridsen E M,Juul J D.Scr Mater,2003; 49:1093 |
| [11] | Groeber M,Ghosh S,Uchic M D,Dimiduk D M.Acta Mater,2008; 56:1257 |
| [12] | Brahme A,Alvi M H,Saylor D,Fridy J,Rollett A D.Scr Mater,2006; 55:75 |
| [13] | Rohrer G S,Saylor D M,Dasher B E,Adams B L,Rollett A D,Wynblatt P.J Mater Res,2004; 95:197 |
| [14] | Saylor D M,Dasher B E,Adams B L,Rohrer G S.Metall Mater Trans,2004; 35A:1981 |
| [15] | Rohrer G S,Randle V,Kim C S,Hu Y.Acta Mater,2006; 54:4489 |
| [16] | Kim C S,Hu Y,Rohrer G S,Randle V.Scr Mater,2005;52:633 |
| [17] | Saylor D M,Morawiec A,Rohrer G S.Acta Mater,2003;51:3675 |
| [18] | Saylor D M,Dasher B E,Sano T,Rohrer G S.J Am Ceram Soc,2004; 87:670 |
| [19] | Fang X Y,Wang W G,Rohrer G S,Zhou B X.Acta Metall Sin,2010; 46:404(方晓英,王卫国,Rohrer G S,周邦新.金属学报,2007; 46:404) |
| [20] | Cai Z X,Wang W G,Fang X Y,Guo H.Acta Metall Sin,2010; 46:769(蔡正旭,王卫国,方晓英,郭红.金属学报,2010; 46:769) |
| [21] | Wang W G,Zhou B X,Rohrer G S,Guo H,Cai Z X.Mater Sci Eng,2010; A527:3695 |
| [22] | Fang X Y,Wang W G,Guo H,Zhang X,Zhou B X.ActaMetall Sin,2007; 43:1239(方晓英,王卫国,郭红,张欣,周邦新.金属学报,2007; 43:1239) |
| [23] | Wang W G.Chin J Stereol Image Analy,2007; 12:239(王卫国.中国体视学与图像分析,2007; 12:239) |
| [24] | Randle V,JonesR.Mater Sci Forum,2010; 638-642:196 |
| [25] | Brandon D G.Acta Metall,1966; 14:1479 |
| [26] | Thomson C B,Randle V.Acta Mater,1997; 45:4909 |
| [27] | Wang W G,Dai Y,Li J H,Liu B X.Cryst Growth Des,2011; 11:2928 |
| [28] | Fang X Y,Zhang K,Guo H,Wang W G,Zhou B X.Mater Sci Eng,2008; A487:7 |
| [29] | Fang X Y,Wang W G,Cai Z X,Qin C X,Zhou B X.Mater Sci Eng,2010; A527:1571 |
| [30] | Wen Y N,Zhang J M.Solid State Commun,2007; 144:163 |
| [31] | Hu G X,Cai X,Rong Y H.Fundamental of Materials Science.Shanghai:Shanghai Jiaotong University Press,2010:122(胡赓祥,蔡珣,戎咏华.材料科学基础.上海:上海交通大学出版社,2010:122) |
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