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1 article(s) from Tolvanen, Antti

Plasticity of Cu nanoparticles: Dislocation-dendrite-induced strain hardening and a limit for displacive plasticity

Antti Tolvanen and
Karsten Albe

Beilstein J. Nanotechnol. 2013, 4, 173–179, doi:10.3762/bjnano.4.17

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Figure 1: Two observed modes of plasticity. (a) Snapshot of the extrusion from a 15.6 Å orifice showing the d...

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Figure 2: The maximum shear component of the atomic stress tensor expressed by the colouring of the atoms (co...

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Figure 3: Extrusion from a 15 Å orifice. Hydrostatic pressure, von Mises stress and the amount of extruded ma...

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Figure 4: Extrusion from 15 Å orifice. (a) The nucleation of the first Shockley partial. (b) Two nonlocking s...

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Figure 5: Dislocations interacting at the onset of plasticity. Colouring by the length of the Burgers vectors...

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Figure 6: A dislocation multijunction blocking the dislocation mobility and nucleation in the system. Disloca...

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Figure 7: Atomic arrangement during the breaking of the dendrite. (a–b) The locking multijunction (see Figure 6) is b...

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Figure 8: Dislocation interacting to break the dendrite. (a–b) The locking multijunction (see Figure 6) is broken as ...

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Figure 9: Hydrostatic pressure and von Mises stress at the onset of plasticity versus extrusion orifice radiu...

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Figure 10: Extrusion from a 11 Å orifice. Hydrostatic pressure, von Mises stress and the amount of extruded ma...

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Figure 11: Energy per atom with respect to the fcc phase at zero pressure for fcc and amorphous Cu. Energy of ...

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Published 07 Mar 2013

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