Comparison of the low and high/very high cycle fatigue behaviors in Ni microbeams under bending

Abstract: The present work demonstrates a micromechanical technique to investigate the Low Cycle Fatigue (LCF) behavior of Ni microbeams under fully reversed bending loadings. The technique extends the range of measured fatigue lives from the previously reported technique for High and Very High Cycle Fatigue (HCF/VHCF) characterization in the same microbeams. The results highlight significant differences in the slope of stress and strain-life behavior and crack propagation rates that differ from an average of 10 -12 m/c… Show more

“…Environmentally controlled experimental setups also allow investigating the influence of humidity [19] on mechanical properties. The frontier of extreme testing currently appears to lie with very high strain rates [40] and very high cycle fatigue [41] applications, with both requiring significant improvements to hardware in order to deal with the acquisition of mass data within a short time, as well as with their subsequent evaluation.…”

Current trends in nanomechanical testing research

“…Environmentally controlled experimental setups also allow investigating the influence of humidity [19] on mechanical properties. The frontier of extreme testing currently appears to lie with very high strain rates [40] and very high cycle fatigue [41] applications, with both requiring significant improvements to hardware in order to deal with the acquisition of mass data within a short time, as well as with their subsequent evaluation.…”

Current trends in nanomechanical testing research

Fatigue behavior of copper thin films

Enhancing bending fatigue resistance of the CoCrFeMnNi high-entropy alloy thin foils by Al addition