We observe two distinct interevent time patterns in the slip avalanches of compressed bulk metallic glasses (BMGs). Small slip avalanches cluster together in time, but large slip avalanches recur roughly periodically. We compare the timing patterns of BMG slip avalanches with timing patterns of earthquakes and with the predictions of a mean-field model. The time clustering of small avalanches is similar to the known time clustering of earthquake foreshocks and aftershocks
We propose a new approach for generating synthetic earthquakes based on the physics of soft glasses....
Extracting avalanche distributions from experimental microplasticity data can be hampered by limited...
Discrete stress relaxations (slip avalanches) in a model metallic glass under uniaxial compression a...
For the first time in metallic glasses, we extract both the exponents and scaling functions that des...
The flow of granular materials and metallic glasses is governed by strongly correlated, avalanche-li...
The flow of granular materials and metallic glasses is governed by strongly correlated, avalanche-li...
Slowly strained solids deform via intermittent slips that exhibit a material-independent critical si...
Slip avalanches occur in both crystalline and amorphous solids. Slip avalanches and avalanches in ot...
Recent experiments show that the deformation properties of a wide range of solid materials are surpr...
Slowly strained solids deform via intermittent slips that exhibit a material-independent critical si...
Slowly-compressed single crystals, bulk metallic glasses (BMGs), rocks, granular materials, and the ...
The plastic flow of bulk metallic glasses (BMGs) is characterized by intermittent bursts of avalanch...
Ductile metallic glass foams (DMGFs) are a new type of structural material with a perfect combinatio...
Stress relaxations (slip avalanches) in a model metallic glass under uniaxial compression are studie...
In this chapter, we discuss avalanches in glasses and disordered systems, and the macroscopic dynami...
We propose a new approach for generating synthetic earthquakes based on the physics of soft glasses....
Extracting avalanche distributions from experimental microplasticity data can be hampered by limited...
Discrete stress relaxations (slip avalanches) in a model metallic glass under uniaxial compression a...
For the first time in metallic glasses, we extract both the exponents and scaling functions that des...
The flow of granular materials and metallic glasses is governed by strongly correlated, avalanche-li...
The flow of granular materials and metallic glasses is governed by strongly correlated, avalanche-li...
Slowly strained solids deform via intermittent slips that exhibit a material-independent critical si...
Slip avalanches occur in both crystalline and amorphous solids. Slip avalanches and avalanches in ot...
Recent experiments show that the deformation properties of a wide range of solid materials are surpr...
Slowly strained solids deform via intermittent slips that exhibit a material-independent critical si...
Slowly-compressed single crystals, bulk metallic glasses (BMGs), rocks, granular materials, and the ...
The plastic flow of bulk metallic glasses (BMGs) is characterized by intermittent bursts of avalanch...
Ductile metallic glass foams (DMGFs) are a new type of structural material with a perfect combinatio...
Stress relaxations (slip avalanches) in a model metallic glass under uniaxial compression are studie...
In this chapter, we discuss avalanches in glasses and disordered systems, and the macroscopic dynami...
We propose a new approach for generating synthetic earthquakes based on the physics of soft glasses....
Extracting avalanche distributions from experimental microplasticity data can be hampered by limited...
Discrete stress relaxations (slip avalanches) in a model metallic glass under uniaxial compression a...