Quantitative in situ nanoindentation in an electron microscope (original) (raw)
ADS
;
Abstract
We report the development of a method for quantitative, in situ nanoindentation in an electron microscope and its application to study the onset of deformation during the nanoindentation of aluminum films. The force-displacement curve developed shows the characteristic "staircase" instability at the onset of plastic deformation. This instability corresponds to the first appearance of dislocations in a previously defect-free grain. Plastic deformation proceeds through the formation and propagation of prismatic loops punched into the material, and half loops that emanate from the sample surface. These results represent the first real time observations of the discrete microstructural events that occur during nanoindentation.
Publication:
Applied Physics Letters
Pub Date:
September 2001
DOI:
Bibcode:
Keywords:
- 68.35.Gy;
- 68.60.Bs;
- 62.20.Mk;
- 62.20.Qp;
- 81.40.Np;
- 62.20.Fe;
- 81.40.Lm;
- 61.72.Lk;
- Mechanical properties;
- surface strains;
- Mechanical and acoustical properties;
- Fatigue brittleness fracture and cracks;
- Tribology and hardness;
- Fatigue corrosion fatigue embrittlement cracking fracture and failure;
- Deformation and plasticity;
- Deformation plasticity and creep;
- Linear defects: dislocations disclinations