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Literature DB >> 17359166

Avalanche size scaling in sheared three-dimensional amorphous solid.

Nicholas P Bailey¹, Jakob Schiøtz, Anaël Lemaître, Karsten W Jacobsen.

Abstract

We study the statistics of plastic rearrangement events in a simulated amorphous solid at T=0. Events are characterized by the energy release and the "slip volume", the product of plastic strain and system volume. Their distributions for a given system size L appear to be exponential, but a characteristic event size cannot be inferred, because the mean values of these quantities increase as Lalpha with alpha approximately 3/2. In contrast with results obtained in 2D models, we do not see simply connected avalanches. The exponent suggests a fractal shape of the avalanches, which is also evidenced by the mean fractal dimension and participation ratio.

Year: 2007 PMID： 17359166 DOI： 10.1103/PhysRevLett.98.095501

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

6 in total

Avalanche size scaling in sheared three-dimensional amorphous solid.

1. Plasticity and dynamical heterogeneity in driven glassy materials.

2. Rheological properties vs. local dynamics in model disordered materials at low temperature.

3. Scaling description of the yielding transition in soft amorphous solids at zero temperature.

4. Potential energy landscape activations governing plastic flows in glass rheology.

5. Common dependence on stress for the statistics of granular avalanches and earthquakes.

6. Structural Signature of Plasticity Unveiled by Nano-Scale Viscoelastic Contact in a Metallic Glass.