FCOB模型热循环和热冲击试验

ITherm 2002. Eighth Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems (Cat. No.02CH37258) Pub Date : 2002-08-07 DOI:10.1109/ITHERM.2002.1012564

Jing Pang, T. H. Low

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引用次数: 11

摘要

对板上倒装芯片(FCOB)焊点寿命预测进行了有限元建模和热循环及热冲击试验仿真。首先，使用弹塑性蠕变分析模型的现象学方法模拟了焊点的时间无关塑性和时间相关蠕变变形。将共晶焊料(63Sn/37Pb)的温度和应变速率相关特性纳入有限元模型。其次，采用基于Anand模型的状态变量黏塑性分析方法模拟了与应变速率相关的焊点非弹性变形。研究了-50℃至+150℃的热循环和热冲击负荷，斜坡速率分别为10℃/min和100℃/min。利用有限元结果得到的非弹性应变范围和非弹性能量密度参数，建立焊点疲劳模型进行寿命预测分析。

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Modeling thermal cycling and thermal shock tests for FCOB

Finite element modeling and simulation of thermal cycling and thermal shock tests for Flip-Chip-On-Board (FCOB) solder joint life prediction was conducted. Firstly, a phenomenological approach using an elastic-plastic-creep analysis model simulates time independent plasticity and time dependent creep deformations in the solder joints. Temperature and strain rate dependent properties for eutectic solder (63Sn/37Pb) were incorporated into the finite element models. Secondly, a state-variable approach using a viscoplastic analysis based on the Anand model simulates the strain rate dependent inelastic deformations in the solder joints. Thermal cycling and thermal shock loading for -50 C to +150 C were investigated for ramp rates of 10 C/min and 100 C/min respectively. Solder joint fatigue models were used for life prediction analysis employing the inelastic strain range and inelastic energy density parameters derived from the finite element results.

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来源期刊

ITherm 2002. Eighth Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems (Cat. No.02CH37258)

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