采用显微硬度测试、HRTEM和原子探针层析技术(APT)等测试手段分析了核元件燃料包壳备选材料LT24铝合金在180℃人工时效早期显微硬度、组织变化及析出序列中析出物的Mg与Si原子比(p).结果表明,在180℃时效初期,合金的硬度显著增加,析出高数量密度的溶质原子团簇和球状Guinier-Preston (GP)区;时效4h后达到硬度峰值,析出物以高数量密度的针状β"相为主;进一步时效,合金处于一硬度平台,析出物仍以β"相为主.随时效时间的延长,析出相逐渐长大,ρ逐渐增加,β"相中ρ在1.23~1.35之间,β"相对合金的强化起最重要作用.在早期时效过程中合金析出物的析出序列为过饱和固溶体→溶质原子团簇→溶质原子团簇+GP区→溶质原子团簇+GP区+β"相.
参考文献
| [1] | Shang B C,Yin Z M,Wang G,Liu B,Huang Z Q.Mater Des,2011; 32:3818 |
| [2] | Marioara C D,Andersen S J,Jansen J,Zandbergen H W.Acta Mater,2003; 51:789 |
| [3] | Jin M,Li J,Shao G J.JAlloys Compd,2007; 437:146 |
| [4] | Wang H,Sun Y Z,Zhang W G,Bi A T,Kang Y L,Li W.At Energy Sci Technol,1999; 33:134(王辉,孙源珍,张伟国,毕安泰,康亚伦,李伟.原子能科学与技术,1999; 33:134) |
| [5] | Yang W C,Wang M P,Sheng X F,Zhang Q,Wang Z A.Acta Metall Sin.2010; 46:1481(杨文超,汪明朴,盛晓菲,张茜,王正安.金属学报,2010; 46:1481) |
| [6] | Yassar R S,Field D P,Weiland H.Scr Mater,2005; 53:299 |
| [7] | Edwards G A,Stiller K,Dunlop G L,Couper M J.Acta Metall,1998; 46:3893 |
| [8] | Starink M J,Cao L F,Rometsch P A.Acta Mater,2012; 60:4194 |
| [9] | Tors(ae)ter M,Hasting H S,Lefebvre W,Marioara C D,Walmsley J C,Andersen S J,Holmestad R.JAppl Phys,2010; 108:1 |
| [10] | Murayama M,Hono K,Saga M,Kikuchi M.Mater Sci Eng,1988; A250:127 |
| [11] | Murayama M,Hono K.Acta Mater,1999; 47:1537 |
| [12] | Zandbergen H W,Andersen S J,Jansen J.Science,1997; 277:1221 |
| [13] | Marioara C D,Nordmark H,Andersen S J,Holmestad R.J Mater Sci,2006; 41:471 |
| [14] | Hasting H S,Froseth A G,Andersen S J,Vissers R,Walmsley J C,Marioara C D.J Appl Phys,2009; 106:2 |
| [15] | Marioara C D,Andersen S J,Zandbergen H W,Holmestad R.Metall Trans,2005; 36A:691 |
| [16] | Serizawa A,Sato T,Poole W J.Philos Mag Lett,2010; 90:279 |
| [17] | Buha J,Lumley R N,Crosky A G,Hono K.Acta Mater,2007; 55:3015 |
| [18] | Esmaeili S,Lloyd D J,Poole W J.Acta Mater,2003; 51:3467 |
| [19] | Pogatscher S,Antrekowitsch H,Leitner H,Ebner T,Uggowitzer P J.Acta Mater,2011; 59:3352 |
| [20] | Sha G,Ringer S P.Ultramicroscopy,2009; 109:508 |
| [21] | Abid T,Boubertakh A,Hamamda S.JAlloys Compd,2010; 490:166 |
| [22] | Rometsch P A,Cao L F,Xiong X F,Muddle B C.Ultramicroscopy,2011; 111:690 |
| [23] | Pogatscher S,Antrekowitsch H,Leitner H,Poschmann D,Zhang Z L,Uggowitzer P J.Acta Mater,2012; 60:4496 |
| [24] | Sha G,M(o)ller H,Stumpf W E,Xia J H,Govender G,Ringer S P.Acta Mater,2012; 60:692 |
| [25] | Rinderer B,Couper M,Xiong X,Gao S,Nie J F.Mater Sci Forum,2010; 654-656:590 |
| [26] | Chang C S T,Wieler I,Wanderka N,Banhart J.Ultramicroscopy,2009; 109:585 |
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%