Journal ArticleDOI
Deformation of Thin Copper Crystals
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In this article, the authors measured the stress/strain curves of many number of copper crystals having various radii from 0.06 to 1 mm and found that the range of easy glide increases considerably when the radius of crystal decreases.Abstract:
Stress/strain curves of many number of copper crystals having various radii from 0.06 to 1 mm were measured. The range of easy glide increases considerably when the radius of crystal decreases. In the case of suitably oriented crystal the range of easy glide reaches to 50 per cent in shear, when the radius of crystal decreases less than 0.1 mm. The extrapolation of the range of easy glide to the infinitesimal radius gives a value between 40 to 80 per cent in shear irrespectively to the initial crystal orientation. The hardening rate in the easy glide region considerably decreases with the decreasing crystal radius. Meanwhile, the critical shear stress, the stress required for the transition from the easy glide to the rapid hardening region, the hardening rate in rapid hardening region reveal only slight dependence on the crystal radii, i.e. the former two slightly increase and the last slightly decreases with the decreasing crystal radii. These results are discussed qualitatively by introducing a concept ...read more
Citations
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Mechanical properties of nanocrystalline materials
TL;DR: The mechanical properties of nanocrystalline materials are reviewed in this paper, with emphasis on their constitutive response and on the fundamental physical mechanisms, including the deviation from the Hall-Petch slope and possible negative slope, the effect of porosity, the difference between tensile and compressive strength, the limited ductility, the tendency for shear localization, fatigue and creep responses.
Journal ArticleDOI
Sample dimensions influence strength and crystal plasticity.
TL;DR: Measurements of plastic yielding for single crystals of micrometer-sized dimensions for three different types of metals find that within the tests, the overall sample dimensions artificially limit the length scales available for plastic processes.
Journal ArticleDOI
Size-affected single-slip behavior of pure nickel microcrystals
TL;DR: In this paper, a direct assessment of the crystal-size dependence of the critical resolved shear stress has been made for single-slip oriented crystals of pure Ni having sample diameters that range from 40 to 1.0 μm.
Journal ArticleDOI
The plasticity of pure single crystals
TL;DR: The theory of the workhardening curve of a pure single crystal is discussed in this paper, where an outline is given of the experimental methods available for the study of the mechanism of plastic deformation and work hardening.
Journal ArticleDOI
Work-hardening and work-softening of face-centred cubic metal crystals
TL;DR: In this article, the authors investigated the mechanisms governing work-hardening, work-softening and slipband formation in face-centred cubic metals, showing that the principal surface patterns (slip bands, fragmentation) are due to cross slip.
References
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Journal ArticleDOI
Multiplication Processes for Slow Moving Dislocations
F. C. Frank,W. T. Read +1 more
BookDOI
Kristallplastizität mit besonderer Berücksichtigung der Metalle
Erich Schmid,Dr.-Ing. W. Boas +1 more
Journal ArticleDOI
A dislocation reaction in the face-centred cubic lattice
TL;DR: A dislocation reaction in the face-centred cubic lattice was studied in this paper, where it was shown that the dislocation can be caused by a dislocation in the lattice's face.
Journal ArticleDOI
LX. The formation of immobile dislocations during slip
TL;DR: In this article, it was shown that certain dislocations on intersecting slip planes in the face centred cubic lattice can join to form new dislocation, which cannot move because of the arrangement of their associated stacking faults.
Journal ArticleDOI
The Nature of Work-Hardening
TL;DR: In this paper, two kinds of workhardening are discussed, interactionhardening and source-hardening, which occurs because the sources of easy glide become inactive and additional glide occurs by the use of sources which act at a higher stress level.