Slip statistics of dislocation avalanches under different loading modes

Maaß, R.; Wraith, M.; Uhl, J. T.; Greer, J. R.; Dahmen, K. A.

doi:10.1103/PhysRevE.91.042403

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Slip statistics of dislocation avalanches under different loading modes

Author(s): R. Maaß , M. Wraith , J. T. Uhl , J. R. Greer , K. A. Dahmen

Publication date (Electronic): April 14 2015

Journal: Physical Review E

Publisher: American Physical Society (APS)

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Plasticity in small-sized metallic systems: Intrinsic versus extrinsic size effect

Julia Greer, Jeff Th.M. De Hosson (2011)

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Micromechanical model for deformation in solids with universal predictions for stress-strain curves and slip avalanches.

Karin A. Dahmen, Yehuda Ben-Zion, Jonathan T. Uhl (2009)

A basic micromechanical model for deformation of solids with only one tuning parameter (weakening epsilon) is introduced. The model can reproduce observed stress-strain curves, acoustic emissions and related power spectra, event statistics, and geometrical properties of slip, with a continuous phase transition from brittle to ductile behavior. Exact universal predictions are extracted using mean field theory and renormalization group tools. The results agree with recent experimental observations and simulations of related models for dislocation dynamics, material damage, and earthquake statistics.