Fatigue and Thermal Fatigue Damage Analysis of Thin Metal Films

微纳电子与智能制造 Pub Date : 2006-04-24 DOI:10.1109/ESIME.2006.1644037
Guangping Zhang, C. Volkert, R. Schwaiger, R. Mönig, Oliver Kraft
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引用次数: 71

Abstract

In this paper, we summarize several testing methods that are currently available for the characterization of fatigue properties of thin metal films. Using these testing methods, a number of experimental investigations of the fatigue and thermal fatigue of metal films with thicknesses ranging from micrometers to sub-micrometers are described. Extensive experimental observations as well as theoretical analyses reveal that the damage behavior, i.e. typical fatigue extrusions and cracking, are quite different from that of bulk materials, and are controlled by the length scales of the materials. Due to the high surface to volume ratio of thin films interface-induced and diffusion-related damage are prevalent in these small length scale materials. As a result, interfaces pose a serious threat to the reliability of thin films
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金属薄膜的疲劳和热疲劳损伤分析
本文综述了目前用于表征金属薄膜疲劳性能的几种测试方法。使用这些测试方法,描述了厚度从微米到亚微米的金属薄膜的疲劳和热疲劳的一些实验研究。大量的实验观察和理论分析表明,典型的疲劳挤压和裂纹损伤行为与块体材料的损伤行为有很大的不同,并且受材料长度尺度的控制。由于薄膜的高表面体积比,界面损伤和扩散损伤在这些小尺寸材料中普遍存在。因此,界面对薄膜的可靠性构成了严重的威胁
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来源期刊
微纳电子与智能制造
微纳电子与智能制造
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