High strain rate studies in rock
Dynamic compression studies using high velocity impact are usually considered to involve a catastrophic process of indeterminate loading rate by which a material is brough to a shock compressed state. Although this is frequently the case, methods are also available to control the rate of strain during the shock compression process. One of the most accurate of these methods makes use of the anomalous nonlinear elastic property of glass to transform an initial shock or step wave input into a ramp wave of known amplitude and duration. Fused silica is the most carefully calibrated material for this purpose and, when placed between the test specimen and the impact projectile, can provide loading strain rates in the range of 10/sup 4//s to 10/sup 6//s for final stress states of approximately 3.9 GPa or less.Ramp wave compression experiments have been conducted on dolomite at strain rates of 3 x 10/sup 4//s. Both initial yielding and subsequent deformation at this strain rate agrees well with previous shock wave studies (epsilon-dotapprox.10/sup 6//s) and differs substantially from quasi-static measurements (epsilon-dotapprox.10/sup -4//s). The ramp wave studies have also uncovered a pressure-induced phase transition in dolomite initiating at 4.0 GPa.
- Research Organization:
- Geomechanics Research Division, Sandia Laboratories, Albuquerque, New Mexico 87115
- OSTI ID:
- 7094255
- Journal Information:
- Geophys. Res. Lett.; (United States), Journal Name: Geophys. Res. Lett.; (United States) Vol. 4:7; ISSN GPRLA
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
580300* -- Mineralogy
Petrology
& Rock Mechanics-- (-1989)
ALKALINE EARTH METAL COMPOUNDS
CARBON COMPOUNDS
CARBONATE ROCKS
CARBONATES
COMPRESSION STRENGTH
DEFORMATION
DOLOMITE
DYNAMIC LOADS
ELASTICITY
IMPACT SHOCK
MAGNESIUM CARBONATES
MAGNESIUM COMPOUNDS
MECHANICAL PROPERTIES
MINERALS
OXYGEN COMPOUNDS
PHASE TRANSFORMATIONS
RESERVOIR ROCK
ROCK MECHANICS
ROCKS
STRAIN RATE
STRAINS
TENSILE PROPERTIES