Effect of length scale on fatigue life and damage formation in thin Cu films

D. Wang; C.A. Volkert; O. Kraft

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Effect of length scale on fatigue life and damage formation in thin Cu films

机译：长度尺度对薄铜膜疲劳寿命和损伤形成的影响

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Fatigue behavior of thin Cu films with thicknesses between 50 nm and 3.0 μm on polyimide substrates has been studied using cyclic tensile testing. The results show a clear length scale effect on both fatigue damage morphology and fatigue life. Extrusions decrease in size and number while the number of cracks increases with decreasing film thickness. The change in fatigue damage with film thickness suggests a fatigue mechanism transition from dislocation mediated extrusion formation to crack formation controlled behavior. The very clear increase in fatigue life with decreasing film thickness at constant applied strain is attributed to an increase in yield stress.

机译：使用循环拉伸试验研究了厚度为50 nm至3.0μm的Cu薄膜在聚酰亚胺基板上的疲劳行为。结果显示出明显的长度尺度对疲劳损伤形态和疲劳寿命都有影响。挤出物的尺寸和数量减少，而裂纹的数量则随着膜厚度的减小而增加。疲劳损伤随膜厚的变化表明疲劳机理从位错介导的挤压成形过渡到裂纹形成受控行为。在恒定的施加应变下，随着膜厚度的减小，疲劳寿命的非常明显的增加归因于屈服应力的增加。

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《Materials Science and Engineering》 |2008年第2期|267-273|共7页
作者
D. Wang; C.A. Volkert; O. Kraft;
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正文语种 eng
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关键词
fatigue; thin film; Cu; length scale; cracking; interface;

机译：疲劳;薄膜;铜长度刻度破裂接口;

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1. Length scale dependent yield strength and fatigue behavior of nanocrystalline Cu thin films [J] . J.Y.Zhang, X.Zhang, G.Liu, Materials Science and Engineering . 2011,第25a26期

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2. Length-scale-dependent deformation mechanism of Cu/X (X=Ru, W) multilayer thin films [J] . Q. Zhou, Y. Li, F. Wang, Materials Science and Engineering . 2016,第Maya10期

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3. Transition from dislocation glide to creep controlled damage in fatigued thin Cu films [J] . C. Trinks, C. A. Volkert Journal of Applied Physics . 2013,第9期

机译：疲劳的薄铜膜从位错滑移过渡到蠕变控制的损伤
4. DAMAGE FORMATION IN CU THIN FILMS DUE TO MECHANICAL FATIGUE [C] . O. Kraft, R. Schwaiger, P. Wellner International Fatigue Congress . 2002

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Effect of length scale on fatigue life and damage formation in thin Cu films

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