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Quasi-static experiments designed to explain strength of rock in an explosion. Final report, 1 February 1984-31 July 1985

Technical Report ·
OSTI ID:5493500

In the failure of rock in an underground nuclear explosion it has often been assumed that failure occurs in compression, which has led to difficulties in modeling. The Bridgman ring experiment, in which a hard rubber ring slipped over a steel rod was observed to split when subjected to a hydrostatic confining pressure, was repeated using pyrex glass rings. Three cases were studied: 1) in which both ring and rod were unjacketed, 2) in which the inner wall of the ring was sealed from the pressure medium, and 3) in which both rod and ring were completely jacketed. In the first two cases, the ring was observed to split abruptly, with a single axial crack when confining pressure reached a critical level. In the third case, no abrupt failure occurred but a number of axial cracks were found to have formed, grown stably, but did not penetrate the outer wall of the ring. The first two cases are explained by hydraulic fracturing of the ring. Observations and analysis indicate that, in the third case the cracks initiated at flaws on the inner surface of the ring and propagated outwards in a stable manner. This case, in which a tensile crack propagates in an all-around compressive stress field, provides some insight into axial cracking of rock in triaxial compression and tensile failure of rock under radial shock loading. These results are suggestive but not conclusive as regards the seismic-coupling problem.

Research Organization:
Columbia Univ., Palisades, NY (USA). Lamont-Doherty Geological Observatory
OSTI ID:
5493500
Report Number(s):
AD-A-166198/2/XAB
Country of Publication:
United States
Language:
English

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Related Subjects

45 MILITARY TECHNOLOGY, WEAPONRY, AND NATIONAL DEFENSE
450202* -- Explosions & Explosives-- Nuclear-- Weaponry-- (-1989)
58 GEOSCIENCES
580300 -- Mineralogy
Petrology
& Rock Mechanics-- (-1989)
COMPRESSION
CRACK PROPAGATION
CRACKS
EXPLOSIONS
HARDENING
MECHANICAL PROPERTIES
MECHANICS
NUCLEAR EXPLOSIONS
ROCK MECHANICS
SEISMIC WAVES
STRESSES
SURFACES
TENSILE PROPERTIES
UNDERGROUND EXPLOSIONS