Effect of Loading Frequency on Fatigue Crack Growth between a Submicron-Thick Film and a Substrate

Jsme International Journal Series A-solid Mechanics and Material Engineering Pub Date : 2006-07-15 DOI:10.1299/JSMEA.49.370

D. Truong, H. Hirakata, T. Kitamura

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引用次数: 7

Abstract

The crack growth along the interface between a submicron-thick film (Cu) and a substrate (Si) under fatigue is experimentally investigated at the load-frequencies of 0.1Hz and 1Hz in a laboratory environment (45 ±5%RH). A modified four-point bend specimen, which has only one interface crack to facilitate the control of crack growth, is used for the tests. The results reveal that the clear interface crack between Cu and Si grows under the cyclic load. The crack growth rate per cycle, da/dN, is governed by the stress intensity factor range, ΔKi, at each frequency and the sigmoidal relationship consisting of three stages are observed in the da/dN-ΔKi curve; the threshold, the stable growth and the critical growth. da/dNgreatly increases as the frequency decreases in the stable growth region. The crack growth rate per time, da/dt, shows a good correlation with the maximum stress intensity factor, Kimax, independently of the loading frequency. This indicates that the environmental effect due to humidity in air plays a dominant role on the crack growth.

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加载频率对亚微米厚薄膜与基体间疲劳裂纹扩展的影响

在实验室环境(45±5%RH)下，在0.1Hz和1Hz载荷频率下，研究了亚微米厚薄膜(Cu)和衬底(Si)在疲劳作用下的裂纹扩展。试验采用改良的四点弯曲试样，只有一个界面裂纹，便于裂纹扩展的控制。结果表明:在循环载荷作用下，Cu和Si之间出现了明显的界面裂纹;在各频率下，每周期的裂纹扩展速率da/dN受应力强度因子范围ΔKi的支配，da/dN-ΔKi曲线呈3个阶段的s型关系;临界值，稳定增长和临界增长。在稳定生长区域，随着频率的降低，da/ dnf显著增加。每次裂纹扩展速率da/dt与最大应力强度因子Kimax具有良好的相关性，与加载频率无关。这说明空气湿度等环境效应对裂纹扩展起主导作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Jsme International Journal Series A-solid Mechanics and Material Engineering

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