采用EBSD和TEM对不同超快速连续退火条件下的低Si系Nb-Ti微合金化TRIP钢进行了显微组织观察,并探讨了拉伸性能.结果表明,100℃/s的加热速率和短时保温制度,使铁素体晶粒细化,并保留了热轧过程中的弥散细小的微合金元素碳氮化物析出,因此提高了钢的强度和塑性.缓冷制度对消除钢的屈服平台有显著作用,而强度有所下降;钢的强度随着退火温度的升高而升高.退火温度在830℃时,残余奥氏体形貌多呈膜状结构与贝氏体铁素体板条相伴出现,使钢的强度和塑性达到了最佳的配合:抗拉强度748 MPa,屈服强度408 MPa,均匀延伸率21.3%,加工硬化指数0.27,强塑积15932.4 MPa·%.
参考文献
| [1] | Jimenez-Melero E,Van Dijk N H,Zhao L,Sietsma J,Offerman S E,Wright J P,Zwaag S.Acta Mater,2009; 57:533 |
| [2] | Etienne G,Anne M,Pascal J,Yvan H,Bert V,Jan V H.Scr Mater,2001; 44:885 |
| [3] | Tirumalasetty G K,Van Huis M A,Fang C M,Xu Q,Tichelaar F D,Hanlon D N,Sietsma J,Zandbergen H W.Acta Mater,2011; 59:7406 |
| [4] | Wang C J,Sun X J,Yong Q L,Li Z D,Zhang X,Jiang L.Acta Metall Sin,2013; 49:399(王长军,孙新军,雍岐龙,李昭东,张熹,江陆.金属学报,2013;49:399) |
| [5] | Shanmugam S,Ramisetti N K,Misra R D K,Hartmann J,Jansto S G.Mater Sci Eng,2008; A478:26 |
| [6] | Xu Y B,Hou X Y,Wang Y Q,Wu D.Acta Metall Sin,2012; 48:176 (徐云波,侯晓英,王业勤,吴迪.金属学报,2012; 48:176) |
| [7] | Jacoues P J,Girault E,Harlef P,Delannay F.ISIJ Int,2001; 41:1061 |
| [8] | Luo H W,Zhao L,Kruijver S O,Sietsma J,Zwaag S V D.ISIJ Int,2003; 43:1219 |
| [9] | Eui P K,Shun F,Kozo S,Shigeru S.Mater Sci Eng,2011; A528:5007 |
| [10] | Chiang J,Lawrence B,Boyd J D K,Pilkey A K.Mater Sci Eng,2011; A528:4516 |
| [11] | Liu J Y,Zhang Z C,Zhu F X,Li Y M,Manabe K I.J Iron Steel Res Int,2012; 19:41 |
| [12] | Zhang W N,Liu Z Y,Wang G D.Acta Metall Sin,2010; 46:1230 (张维娜,刘振宇,王国栋.金属学报,2010; 46:1230) |
| [13] | Funakawa Y,Shiozaki T,Tomita K,Yamamoto T,Maeda E.ISIJ Int,2004; 44:1945 |
| [14] | Chen J,Lv M Y,Tang S,Liu Z Y,Wang G D.Mater Sci Eng,2014; A594:389 |
| [15] | Lan H F,Du L X,Wang X N,Liu X H.Steel Res Int,2012; 83:139 |
| [16] | Wang X P,Du L X,Zhou M.JNortheastern Univ (Nat Sci),2012; 33:1137(王晓鹏,杜林秀,周民.东北大学学报(自然科学版),2012; 33:1137) |
| [17] | Asoo K,Tomota Y,Harjo S,Okitsu Y.ISIJ Int,2011; 51:145 |
| [18] | Han D,Sun X J,Hui W J,Zhang S L,Shi J,Wang M Q.ISIJ Int,2008; 48:1126 |
| [19] | Sugimoto K,Murata M,Muramatsu T,Mukai Y.ISIJ Int,2007; 47:1357 |
| [20] | Lee C G,Kim S J,Oh C S,Lee S.ISIJ Int,2002; 42:1162 |
| [21] | Zwaag S,Wang J.ScrMater,2002; 47:169 |
| [22] | Cui Z Q,Qin Y C.Metallography and Heat Treatment.Beijing:China Machine Press,2007:262(崔忠圻,覃耀春.金属学与热处理.北京:机械工业出版社,2007:262) |
| [23] | Tirumalasetty G K,Van Huis M A,Kwakemaak C,Sietsma J,Sloof W G,Zandbergen H W.Acre Mater,2012; 60:1311 |
| [24] | Jimenez-Melero E,Van Dijk N H,Zhao L,Sietsma J,Offerman S E,Wright J P,Zwaag S.Acta Mater,2007; 55:6713 |
| [25] | Zaefferer S,Ohlert J,Bleck W.Acta Mater,2004; 52:2765 |
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%