Abstract
Leadfree electronics in harsh environments may often be exposed to elevated temperature for the duration of storage, process and usage in addition to high strain rate triggering loads during drop-impact, vibration and shock. These electronic components may get exposed to high strain rates of 1 to 100 per seconds and operating temperature up to 200°C in the critical surroundings. SAC solder alloys (e.g. SAC-Q (CYCLOMAX), and Innolot) are being considered for use in fine-pitch electronic components. SAC-Q consists of Sn-Ag-Cu alloy in addition to Bi (SAC+Bi). The data presented till date for lead-free solders like SAC-Q alloy at high aging temperature and at high strain rate are for 50°C sustained exposure. In this paper, effect of sustained exposure of 100°C on high strain rate properties of SAC-Q is studied. Thermally aged SAC-Q samples at 100°C have been tested at a range of strain rates including 10, 35, 50, and 75 per second and operating temperatures starting from 25°C up to 200°C. Stress-strain curves are established for the given range of strain rates and operating temperatures. Also, the computed experimental results and data have been fit to the Anand Viscoplasticity model for SAC-Q for comparison.
