SAC305材料在高温高应变速率下的性能

P. Lall, D. Zhang, Vikas Yadav, J. Suhling, S. Shantaram
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引用次数: 17

摘要

无铅焊料因其对环境友好的化学特性而被广泛应用于电子封装中。然而,当受到冲击和振动时,这些材料可能会经历高应变率。因此,在这些情况下,电子设备将发生故障。因此,了解无铅钎料的材料性能是非常重要的,但对这些钎料合金在高应变速率下的力学行为的研究却很少。Anand粘塑性本构模型被广泛用于描述电子元件中焊料在热机械变形下的非弹性变形行为。然而,关于瞬态动态应变率的Anand模型常数很少。本文给出了高应变率下阿南德粘塑性模型的9个材料参数。为了确定该模型的常数,完成了几种应变速率和温度下的单轴拉伸试验。采用恒定应变率冲击锤进行拉伸试验,其应变率约为每秒1至100次,并采用小型热室控制试验温度。采用70000 fps的高速摄像机对试样进行图像采集,然后采用数字图像相关法计算拉伸应变。单轴应力-应变曲线在应变速率(ε =10、35、50、75 /sec)和温度(T = 25、50、75、100、125℃)范围内绘制。用非线性拟合程序计算了阿南德粘塑性常数。此外,通过比较模型预测和实验数据,对提取的阿南德常数的精度进行了评价。
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Material behavior of SAC305 under high strain rate at high temperature
Leadfree solders have been used as interconnects in electronic packaging, due to its environmental friendly chemical property. However, those materials may experience high strain rates when subjected to shock and vibration. Consequently, failure will occur to electronics in those situations. Therefore, knowing the material properties of lead-free solders are extremely important, but research on mechanical behaviors of those solder alloys at high strain rates are scarce. Anand's viscoplastic constitutive model has been widely used to describe the inelastic deformation behavior of solders in electronic components under thermo-mechanical deformation. However, Anand's model constants for the transient dynamic strain rates are scarce. In this paper, the nine material parameters to fit the Anand viscoplastic model at high strain rates have been presented. In order to develop the constants for this model, uniaxial tensile tests at several strain rates and temperatures have been completed. A constrant strain rate impact hammer which enables attaining strain rates around 1 to 100 per sec has been employed to implement tensile tests and a small thermal chamber is applied to control testing temperature. High speed cameras operating at 70,000 fps have been used to capture images of specimen and then digital image correlation method is used to calculate tensile strain. Uniaxial stress-strain curves have been plotted over a wide range of strain rates (ε̇=10, 35, 50, 75 /sec) and temperatures (T = 25, 50, 75, 100, 125°C). Anand viscoplasticity constants have been calculated by non-linear fitting procedures. In addition, the accuracy of the extracted Anand constants has been evaluated by comparing the model prediction and experimental data.
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