本文研究了交流电致循环热应变作用下200 nm厚Au薄膜的失效行为.结合实验结果和理论计算,确定了交流电作用下6μm宽Au薄膜导线上的温度分布,并由此确定了Au互连线在交流电作用下达到稳定状态后的循环热应变范围.结果表明,应变范围△ε≤0.35%,经过5×106cyc热循环后,Au互连线中的晶粒出现不同程度的增长,晶界损伤导致Au互连线的最终失效.对Au薄膜热疲劳、机械疲劳失效行为及其机制进行了分析.
参考文献
| [1] | Hau-Riege C S.Microelectron Reliab,2004;44:195 |
| [2] | Zhang G P,Wang Z G.Acta Metall Sin,2005;41:1(张广平,王中光.金属学报,2005;41:1) |
| [3] | Read D T.Int J Fatigue,1998;20:203 |
| [4] | Schwaiger R,Kraft O.Scr Mater,1999;41:823 |
| [5] | Schwaiger R,Kraft O.Acta Mater,2003;51:195 |
| [6] | Zhang G P,Volkert C A,Schwaiger R,Wellner P,Arzt E,Kraft O.Acta Mater,2006;54:3127 |
| [7] | Keller R R,M6nig R,Volkert C A,Arzt E,Schwaiger R,Kraft O.AlP Proceedings of the 6th International Workshop of Stress Induced Phenomena in Metallization,New York:AIP,2002:119 |
| [8] | M(o)nig R.PhD Thesis,University of Stuttgart,Germany,2005 |
| [9] | M(o)nig R,Keller R R,Volkert C A.Rev Sci Instrum,2004;75:4997 |
| [10] | Park Y B,M(o)nig R,Volkert C A.Thin Solid Films,2007;515:3253 |
| [11] | Park Y B,M(o)nig R,Volkert C A.Thin Solid Films,2006;504:321 |
| [12] | Zhang G P,Volkert C A,Schwaiger R,MSnig R,Kraft O.Microelectron Reliab,2007;47:2007 |
| [13] | Wang M,Zhang B,Zhang G P,Liu C S.Ser Mater,2009;60:803 |
| [14] | Guan Z D,Zhang Z T,Jiao J S.Inorganic Materials Physical Property.Beijing:Tsinghua University Press,1992:127(关振铎,张中太,焦金生.无机材料物理性能.北京:清华大学出版社,1992:127) |
| [15] | Zhang J,Zhang J Y,Liu G,Zhao Y,Ding X D,Zhang G P,Sun J.Scr Mater,2009;60:228 |
| [16] | Zhang G P,Volkert C A,Schwaiger R,Arzt E,Kraft O.J Mater Res,2005;20:201 |
| [17] | Zhang B,Sun K H,Liu Y D,Zhang G P.Acta Metall Sin,2006;42:1(张滨,孙恺红,刘永东,张广平.金属学报,2006;42:1) |
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