Title of article
Fracture in Westerly Granite under AE Feedback and Constant Strain Rate Loading: Nucleation, Quasi-static Propagation, and the Transition to Unstable Fracture Propagation
Author/Authors
Ben D. Thompson، نويسنده , , R. Paul Young ، نويسنده , , David A. Lockner ، نويسنده ,
Issue Information
ماهنامه با شماره پیاپی سال 2006
Pages
25
From page
995
To page
1019
Abstract
New observations of fracture nucleation are presented from three triaxial compression
experiments on intact samples of Westerly granite, using Acoustic Emission (AE) monitoring. By
conducting the tests under different loading conditions, the fracture process is demonstrated for quasistatic
fracture (under AE Feedback load), a slowly developing unstable fracture (loaded at a ‘slow’
constant strain rate of 2.5 · 10)6 /s) and an unstable fracture that develops near instantaneously (loaded at
a ‘fast’ constant strain rate of 5 · 10)5 /s). By recording a continuous ultrasonic waveform during the
critical period of fracture, the entire AE catalogue can be captured and the exact time of fracture defined.
Under constant strain loading, three stages are observed: (1) An initial nucleation or stable growth phase at
a rate of 1.3 mm/s, (2) a sudden increase to a constant or slowly accelerating propagation speed of
18 mm/s, and (3) unstable, accelerating propagation. In the 100 ms before rupture, the high level of AE
activity (as seen on the continuous record) prevented the location of discrete AE events. A lower bound
estimate of the average propagation velocity (using the time-to-rupture and the existing fracture length)
suggests values of a few m/s. However from a low gain acoustic record, we infer that in the final few ms, the
fracture propagation speed increased to 175 m/s. These results demonstrate similarities between fracture
nucleation in intact rock and the nucleation of dynamic instabilities in stick slip experiments. It is suggested
that the ability to constrain the size of an evolving fracture provides a crucial tool in further understanding
the controls on fracture nucleation.
Keywords
Nucleation , Acoustic emission , GRANITE. , rupture , Shear-fracture , earthquake
Journal title
Pure and Applied Geophysics
Serial Year
2006
Journal title
Pure and Applied Geophysics
Record number
429952
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