AI Article Synopsis
- Fractures are common and can cause serious failures in materials, with their behavior being complex as they extend in three-dimensional space.
- The study revealed that fractures begin with initial ruptures at specific points, quickly spreading outward at high speeds, comparable to the Rayleigh-wave speed.
- By examining circular geometries and using fluids to control loading conditions, the researchers found a correlation between the speed of fractures and their transverse expansion.
Article Abstract
Fractures are ubiquitous and can lead to the catastrophic material failure of materials. Although fracturing in a two-dimensional plane is well understood, all fractures are extended in and propagate through three-dimensional space. Moreover, their behaviour is complex. Here we show that the forward propagation of a fracture front occurs through an initial rupture, nucleated at some localized position, followed by a very rapid transverse expansion at velocities as high as the Rayleigh-wave speed. We study fracturing in a circular geometry that achieves an uninterrupted extended fracture front and use a fluid to control the loading conditions that determine the amplitude of the forward jump. We find that this amplitude correlates with the transverse velocity. Dynamic rupture simulations capture the observations for only a high transverse velocity. These results highlight the importance of transverse dynamics in the forward propagation of an extended fracture.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11021187 | PMC |
| http://dx.doi.org/10.1038/s41567-023-02365-0 | DOI Listing |
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