研究了稀土氧化物La2O3添加量对激光烧结直接成形(WC-10Co)颗粒增强Cu基复合材料的影响.结果表明,优化La2O3含量(1.0%),可细化激光烧结组织,提高增强颗粒分散均匀性以及颗粒/基体界面结合性能,成形致密度高达理论密度的96.3%,显微硬度HV可达403.1;而过量添加La2O3(≥1.5%),导致激光成形性能降低.讨论了稀土原子对颗粒增强金属基复合材料激光烧结成形的作用机理.
参考文献
| [1] | Simchi A.Mater Sci Eng,2006; A428:148 |
| [2] | Zhu H H,Fuh J Y H,Lu L.Rapid Prototyp J,2005; 11:74 |
| [3] | Gu D D,Shen Y F,Yang J L,Wang Y.Mater Sci Technol,2006; 22:1449 |
| [4] | Gu D D,Shen Y F.J Mater Process Technol,2007; 182:564 |
| [5] | Simchi A,Petzoldt F,Pohl H.J Mater Process Technol,2003; 141:319 |
| [6] | Das S,Fuesting T P,Danyo G,Brown L E,Beaman J J,Bourell D L.Mater Des,2000; 21:63 |
| [7] | Pintsuk G,Brünings S E,D(o)ring J E,Linke J,Smid I,Xue L.Fusion Eng Des,2003; 66-68:237 |
| [8] | Wang H M.Acta Aeronaut Astronaut Sin,2002; 23:473(王华明.航空学报,2002;23:473) |
| [9] | Breval E,Cheng J P,Agrawal D K,Gigl P,Dennis M,Roy R,Papworth A J.Mater Sci Eng,2005; A391:285 |
| [10] | Gu D D,Shen Y F.Powder Metall,2006; 49:258 |
| [11] | Cai Q K,He C L,Zhao M J,Bi J,Liu C S.Acta Metall Sin,2003; 39:865(才庆魁,贺春林,赵明久,毕敬,刘常升.金属学报,2003;39:865) |
| [12] | Zhao M J,Liu Y,Bi J.Acta Metall Sin,2003; 39:221(赵明久,刘越,毕敬.金属学报,2003;39:221) |
| [13] | Gui M C,Han J M,Li P Y.Mater Sci Technol,2004; 20:765 |
| [14] | Maeda K,Childs T H C.J Mater Process Technol,2004;149:609 |
| [15] | Zhong M L,Liu W J.Acta Metall Sin,2002; 38:495(钟敏霖,刘文今.金属学报,2002;38:495) |
| [16] | Wu P,Zhou C C,Tang X N.Acta Metall Sin,2002; 38:1257(吴萍,周昌炽,唐西南.金属学报,2002;38:1257) |
| [17] | Yang S,Liu W J,Zhong M L,Wang Z J,Kokawa H.J Mater Sci,2005; 40:2751 |
| [18] | Gu D D,Shen Y F.Mater Lett,2006; 60:3664 |
| [19] | Gu D D,Shen Y F.Mater Sci Eng,2006; A435-436:54 |
| [20] | Gu D D,Shen Y F.J Alloys Compd,2007; 431:112 |
| [21] | Zheng W C,Li S S,Tang B,Zeng D B.Acta Metall Sin,2006; 42:835(郑伟超,李双寿,汤彬,曾大本.金属学报,2006;42:835) |
| [22] | Wu G H,Ma C J,Wang Y S,Zhu Y P,Ding W J.Acta Metall Sin,2002; 38:703(吴国华,马春江,王叶双,朱燕萍,丁文江.金属学报,2002;38:703) |
| [23] | Yang M C,Xu J,Hu Z Q.Int J Refract Met Hard Mater,2004; 22:1 |
| [24] | Niu H J,Chang I T H.Scr Mater,1999; 41:25 |
| [25] | Zhu H H,Lu L,Fuh J Y H.Mater Sci Eng,2004; A371:170 |
| [26] | Das S.Adv Eng Mater,2003; 5:701 |
| [27] | Tian Y S,Chen C Z,Chen L X,Huo Q H.Scr Mater,2006; 54:847 |
| [28] | Yuan Z F,Ke J J,Li J.Surface Tension of Metals and Alloys.Beijing:Science Press,2006:29(袁章福,柯家骏,李晶.金属及合金的表面张力.北京:科学出版社,2006:29) |
| [29] | Niu H J,Chang I T H.Scr Mater,1999; 41:1229 |
| [30] | Zhao G M,Wang K L.Corros Sci,2006; 48:273 |
| [31] | Gu D D,Shen Y F.J Alloys Compd,2007; 432:163 |
| [32] | Zhai Q J,Guan S K,Shang Q Y.Alloy Thermo-Mechanism:Theory and Application.Beijing:Metallurgical Industry Press,1999:142(翟启杰,关绍康,商全义.合金热力学理论及其应用.北京:冶金工业出版社,1999:142) |
| [33] | Wu C M L,Yu D Q,Law C M T,Wang L.Mater Sci Eng,2004; R44:1 |
| [34] | Zhang K,Chen G N.Mater Sci Eng,2000; A292:229 |
| [35] | Zhao G M,Wang K L,Liu J J.Acta Metall Sin,2004; 40:1115(赵高敏,王昆林,刘家浚.金属学报,2004;40:1115) |
| [36] | Zhong H R.Chemical Heat Treatment of Steel with Rare Earth.Beijing:National Defence Industry Press,1998:195(钟华仁.钢的稀土化学热处理.北京:国防工业出版社,1998:195) |
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