蠕动
锡
材料科学
稳态(化学)
复合材料
功率(物理)
冶金
热力学
化学
物理
有机化学
作者
Mohammad A. Gharaibeh,Markus Feisst,Jürgen Wilde
标识
DOI:10.1108/mmms-09-2024-0283
摘要
Purpose This paper aims to investigate the steady-state creep of the multilayer Silver-Tin transient liquid phase (AgSn-TLP) interconnects of the power modules using experiments and constitutive modeling. Design/methodology/approach A series of engineered creep tests is executed at different temperatures and stress levels to produce creep strain versus time data. Accordingly, steady-state creep parameters are acquired through nonlinear regressions. Two steady-state creep relations, including hyperbolic sine and power laws, are created, and validated with measured data. Afterwards, numerical studies are executed to examine the thermomechanical response of the AgSn-TLP interconnects compared to other bond materials. Findings Generally, the AgSn- TLP interconnections showed higher resistance to the accumulation of creep strains, indicating their potential to perform efficiently in high temperature applications. Originality/value This paper models the steady-state creep response of the silver-tin TLP bonds using hyperbolic sine and power laws. These models are important for stress and strain analysis using numerical simulations.
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