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Correlation of strain and velocity during dilatancy

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Abstract

PRESENT earthquake mechanism models are predicated on the hypothesis of the formation of a dilatant zone in the region of the proposed break and the time history of physical rock properties that are a function of crack porosity. For example, field observations have shown drops in compressional wave velocity in earthquake areas prior to events. The anomaly persists for a time dependent on the source dimensions of the impending shock, and returns to normal prior to the event1–4. Velocity measurements made during laboratory fracture tests have shown a decrease in compressional wave velocity above approximately 80% of the fracture stress5,6. The effect is most pronounced normal to the direction of greatest compression. Similarly, as the fracture stress is approached the inelastic volumetric strain is the greatest7, indicating a definite correlation between velocity and inelastic volumetric strain.

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Authors and Affiliations

  1. Cooperative Institute for Research in Environmental Sciences, University of Colorado/NOAA, Boulder, Colorado, 80302

    H. SPETZLER & R. J. MARTIN III

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  1. H. SPETZLER
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  2. R. J. MARTIN III
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SPETZLER, H., MARTIN, R. Correlation of strain and velocity during dilatancy. Nature 252, 30–31 (1974). https://doi.org/10.1038/252030a0

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  • DOI: https://doi.org/10.1038/252030a0

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