本文研究了气体保护条件下,常规熔铸的Mg-Gd-Y-Zr合金中夹杂物的形貌、分布及形成原因,并通过计算分析了夹杂物的沉降行为.结果表明,Mg-Gd-Y-Zr合金中有MgO或Y的氧化物为主的球状、簇状、不规则状、线状的复合夹杂物和含熔剂夹杂物,夹杂物的平均尺寸为12.7 μm,平均体积分数为0.26%.夹杂物出现的频率随其尺寸增大而急剧减小,尺寸在20 μm以下的夹杂物占夹杂物总体积接近85%,尺寸在45 μm以下的夹杂物占96%.计算结果表明,夹杂物沉降速率与其尺寸和密度相关;夹杂物密度增大,可使镁合金中夹杂物的最大尺寸减小,计算得到的合金中最大夹杂物的尺寸与实验结果基本一致.
参考文献
| [1] | Lee S G,Patel G R,Gokhale A M,Sreeranganathan A,Horstemeyer M F.Scr Mater,2005; 53(7):851 |
| [2] | Liu G J,Wang Y,Fan Z Y.Mater Sci Eng,2008; 472A:251 |
| [3] | Hu B,Peng L M,Yang Y L,Ding W J.Mater Des,2010;31:3901 |
| [4] | Stumphy B,Mudryk Y,Russell A,Herman D,Gschneidner K Jr.J Alloy Compd,2008; 460:363 |
| [5] | Yim C D,Kang N E,You B S.Met Mater Int,2010; 16:377 |
| [6] | Wang W W,Xu J W,Cao D F.Foundry Technol,1991;12(6):15(王薇薇,徐介文,曹达富.铸造技术,1991:12(6):15) |
| [7] | Lu C,Wu G H,Cai C,Zeng K,Ding W J.Met Form Technol,2002; 20(5):5(卢晨,吴国华,蔡超,曾克,丁文江.金属成形工艺,2002;20(5):5) |
| [8] | Liang M J,Wu G H,Ding W J,Wang W.Trans Nonferrous Met Soc China,2011; 21:717 |
| [9] | Wang J,Yang Y S,Tong W H.Trans Nonferrous Met Soc China,2011; 21:949 |
| [10] | Hu H,Luo A.JOM,1996; 48(10):47 |
| [11] | Eckert C E.Mod Cast,1991; (4):28 |
| [12] | Bakke P,Laulin J A,Provost A,Karlsen D O.In:Huglen Red.,Light Metals 1997.Orlando:Minerals,Metals & Materials Society,1997:1019 |
| [13] | Zhang S C,Wei B K,Lin H T.Foundry,2003; 52:488(张诗昌,魏伯康,林汉同.铸造,2003; 52:488) |
| [14] | Zhao Y,Liu P P,Zhou H.Foundry,2006; 55:1085(赵宇,刘盼盼,周宏.铸造,2006; 55:1085) |
| [15] | Han Y F,Liu J R,Shen S J,Huang W D.Foundry Technol.2006; 27:613(韩英芬,刘建睿,沈淑娟,黄卫东.铸造技术,2006; 27:613) |
| [16] | Gao L,Chen R S,Han E H.Trans Nonferrous Met Soc China,2011; 21:863 |
| [17] | Wang J,Meng J,Zhang D P,Tang D X.Mater Sci Eng,2007; A456:78 |
| [18] | He S M,Zeng X Q,Peng L M,Guo X W,Chang J W,Ding W J.Mater Sci Forum,2007; 546-549:101 |
| [19] | Guo X T,Li P J,Zeng D B,Liu S X.Trans Nonferrous Met Soc China,2004; 14:1295(郭旭涛,李培杰,曾大本,刘树勋.中国有色金属学报,2004:14:1295) |
| [20] | Zheng Y,Wu G H,Hou Z Q,Chen B,Wang Q L,Ding W J.Foundry,2010; 59(1):7(郑韫,吴国华,侯正全,陈斌,王其龙,丁文江.铸造,2010;59(1):7) |
| [21] | Li N,Liu J R,Wang S Q,Shen S J,Huang W D,Pang Y T.Foundry Technol,2006; 27:1133(李娜,刘建睿,王栓强,沈淑娟,黄卫东,逢玉台.铸造技术,2006; 27:1133) |
| [22] | Zhang J,He L J,Li P J.Foundry,2005; 54:665(张军,何良菊,李培杰.铸造,2005;54:665) |
| [23] | Jiang Y Y.Trans Chin Soc Agric Eng,1996; 12(8):12(蒋亦元.农业工程学报,1996; 12(8):12) |
| [24] | Chen Z H,Yan H G,Chen J H,Quan Y J,Wang H M,Chen D.Magnesium Alloy.Beijing:Chemical Industry Press,2004:10(陈振华,严红革,陈吉华,全亚杰,王慧敏,陈鼎编著.镁合金.北京:化学工业出版社,2004:10) |
| [25] | Mi G B,He L J,Li P J,Popel P S,Abaturov I S.Trans Nonferrous Met Soc China,2009; 19:1372(弭光宝,何良菊,李培杰,Popel P S,Abaturov I S.中国有色金属学报,2009; 19:1372) |
| [26] | Cao Y Q.Master Thesis,Jilin University,Changchun,2006(曹永强.吉林大学硕士学位论文,长春,2006) |
| [27] | Li Z B.J Mater Metall,2002; 1:161(李正邦.材料与冶金学报,2002; 1:161) |
| [28] | Keissling R.Non-Metallic Inclusions in Steel. London:Metals Society,1978:47 |
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%