2000
DOI: 10.1029/2000jb900239
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Fracture process zone in granite

Abstract: Abstract. In uniaxial compression tests performed on Aue granite cores (diameter 50 mm, length 100 mm), a steel loading plate was used to induce the formation of a discrete shear fracture. A zone of distributed microcracks surrounds the tip of the propagating fracture. This process zone is imaged by locating acoustic emission events using 12 piezoceramic sensors attached to the samples. Propagation velocity of the process zone is varied by using the rate of acoustic emissions to control the applied axial force… Show more

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Cited by 200 publications
(134 citation statements)
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“…The role of the large-scale imperfections can be further established by considering the distance of the triggered events from a given imperfection. Figure 3(a) shows that triggering cascades tend to propagate away from the imperfection, consistent with process zone models [51][52][53]. Figure 3(b) shows that the topological structure of triggering cascades is characterized by an increase of hdi f with increasing size and that hdi f > 5 for the largest triggering cascades.…”
supporting
confidence: 59%
“…The role of the large-scale imperfections can be further established by considering the distance of the triggered events from a given imperfection. Figure 3(a) shows that triggering cascades tend to propagate away from the imperfection, consistent with process zone models [51][52][53]. Figure 3(b) shows that the topological structure of triggering cascades is characterized by an increase of hdi f with increasing size and that hdi f > 5 for the largest triggering cascades.…”
supporting
confidence: 59%
“…Because the distribution of the seismic cloud in the reservoir strongly depends on the type and geometry of the seismic network, velocity model and location method used, its size cannot be related one-to-one to the actual fracture location and mechanisms operating in situ, as evidenced by the difference in the extension of the acoustic (seismic) cloud and the actual fracture pattern observed in granite cores in the laboratory (Zang et al, 2000). Although basic aspects of generating fluid-induced seismicity are understood, there are, nonetheless, gaps in our understanding of the key reservoir parameters that control the rate and magnitudes of the seismic events.…”
Section: Discussionmentioning
confidence: 99%
“…Also from laboratory testing it is known that acoustic emission activity and source mechanisms are very different for e.g., sandstones (Lockner and Byerlee, 1972;Zang et al, 1996) as compared to granite (Lockner and Byerlee, 1992;Zang et al, 2000). This is caused by different fracture mechanisms operating during fluid injection into different rock types as discussed in Section 5.…”
Section: Source Mechanism Of Larger Magnitude Events (Lme)mentioning
confidence: 99%
“…An experimental study based on acoustic emissions from propagating hydraulic mode-I fractures in Weber Sandstone was carried out by Lockner and Byerlee (1977). An ongoing laboratory scale study on tensile fracturing of granite using acoustic emissions (G. Dresen, personal communication, 2003) shows a process zone similar in extent to that observed by Zang et al (2000) for shear fractures, within the limits of spatial resolution.…”
Section: Process Zone and Damage Zone In Rock Deformationmentioning
confidence: 99%
“…In laboratory experiments, the formation of microcracks in the process zone can be monitored by analysis of acoustic emissions (e.g. Lockner, 1995;Zang et al, 2000) and afterwards compared with the microstructure of the deformed sample (e.g. Swanson, 1987;Janssen et al, 2001).…”
Section: Process Zone and Damage Zone In Rock Deformationmentioning
confidence: 99%