Interfacial Adhesion Method for Semiconductor Applications Covering the Full Mode Mixity

微纳电子与智能制造 Pub Date : 2006-04-24 DOI:10.1109/ESIME.2006.1643963
J. Thijsse, W. V. van Driel, M. van Gils, O. van der Sluis
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引用次数: 6

Abstract

Currently, prediction of interface strength is typically done using the critical energy release rate. Interface strength, however, is heavily dependent on mode mixity. Accurately predicting delamination therefore requires a material model that includes the mode dependency of interface strength. A novel test setup is designed which allows mixed mode delamination testing. The setup is a stabilized version of the mixed mode bending test previously described by Reeder and Crews (1990, 1991). It allows for the measurement of stable crack growth over the full range of mode mixities, using a single specimen design. The crack length, necessary for calculation of the energy release rate, is obtained from an analytical model. Crack length and displacement data are used in a finite element model containing a crack tip to calculate the mode mixity
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覆盖全模混合半导体应用的界面粘附方法
目前,界面强度的预测通常是使用临界能量释放率进行的。然而,界面强度严重依赖于模态混合。因此,准确预测分层需要一个包含界面强度模式依赖性的材料模型。设计了一种新的测试装置,可以进行混合模式分层测试。该装置是先前由Reeder和Crews(1990,1991)描述的混合模式弯曲试验的稳定版本。它允许测量稳定的裂纹增长在整个范围内的模式混合物,使用一个单一的试样设计。计算能量释放率所需的裂纹长度由解析模型得到。在包含裂纹尖端的有限元模型中,使用裂纹长度和位移数据计算模态混合
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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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发文量
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