On the molecular dynamics simulation of fatigue behavior of pre-cracked aluminum chip for NEMS application: Effect of cyclic loading mode and surface roughness geometry
S Akbarian and K Dehghani, INTERNATIONAL JOURNAL OF FATIGUE, 135, 105570 (2020).
DOI: 10.1016/j.ijfatigue.2020.105570
This study focuses on investigating the dependency of fatigue nanomechanisms to the cyclic loading mode and notch shape in single- crystal aluminum nanoplates by molecular dynamics simulation. Fatigue damage in tension-tension mode is extensively dominated by nanovoids formation and persistent slip bands. Surprisingly, the tension- compression mode leads to nanovoids formation with twofold behavior, de- voiding process and substructure development preventing crack propagation stemming from the reversal strain path. It is proved that crack propagation rate is not sensitive to the notch shape in tension- tension mode. Conversely, sharp notch results in longer fatigue life than blunt notch in tension-compression mode.
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