High strain rate mechanical properties of SAC105 leadfree alloy at high operating temperatures

P. Lall, Vikas Yadav, D. Zhang, J. Suhling, S. Shantaram
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引用次数: 23

Abstract

Industry migration to leadfree solders has resulted in a proliferation of a wide variety of solder alloy compositions. The most popular amongst these are the Sn-Ag-Cu family of alloys like SAC105 and SAC305. Electronics subjected to shock and vibration may experience strain rates of 1-100 per sec. Electronic product may often be exposed to high temperature during storage, operation and handling in addition to high strain rate transient dynamic loads during drop-impact, shock and vibration. Properties of leadfree solder alloys at high strain rates at low and high temperatures experienced by the solder joint during typical mechanical shock events are scarce. Previous studies have showed the effect of high strain rates and thermal aging on the mechanical properties of leadfree alloys including elastic modulus and the ultimate tensile strength. The ANAND viscoplastic constitutive model has been widely used to describe the inelastic deformation behavior of solders in electronic components. In this study, SAC105 leadfree alloys have been tested at strain rates of 10, 35, 50 and 75 per sec at various operating temperatures of 50°C, 75°C, 100°C and 125°C. Full-field strain in the specimen have been measured using high speed imaging at frame rates up to 75,000 fps in combination with digital image correlation. The cross-head velocity has been measured prior-to, during, and after deformation to ensure the constancy of cross-head velocity. Stress-Strain curves have been plotted over a wide range of strain rates and temperatures. Experimental data for the pristine specimen has been fit to the ANAND's viscoplastic model.
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SAC105无铅合金在高温下的高应变率力学性能
工业向无铅焊料的迁移导致了各种焊料合金成分的扩散。其中最受欢迎的是Sn-Ag-Cu合金家族,如SAC105和SAC305。受到冲击和振动的电子产品可能会经历每秒1-100的应变率。电子产品在储存,操作和处理过程中可能经常暴露在高温下,除了在跌落冲击,冲击和振动期间的高应变率瞬态动态载荷。在典型的机械冲击事件中,焊点在低温和高温下的高应变速率下的无铅焊料合金的性能很少。已有研究表明,高应变率和热时效对无铅合金的弹性模量和极限抗拉强度等力学性能有影响。ANAND粘塑性本构模型被广泛用于描述电子元件中焊料的非弹性变形行为。在这项研究中,SAC105无铅合金在50°C、75°C、100°C和125°C的不同工作温度下,以每秒10、35、50和75的应变速率进行了测试。在试样的全场应变已测量使用高速成像的帧率高达75000帧/秒结合数字图像相关。测量了变形前、变形中、变形后的横头速度,保证了横头速度的稳定性。应力-应变曲线已在应变速率和温度的大范围内绘制出来。原始试样的实验数据符合ANAND的粘塑性模型。
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