Scaled experiments of explosions in cavities
Abstract
Consequences of an explosion inside an air-filled cavity under the earth's surface are partly duplicated in a laboratory experiment on spatial scales 1000 smaller. The experiment measures shock pressures coupled into a block of material by an explosion inside a gas-filled cavity therein. The explosion is generated by suddenly heating a thin foil that is located near the cavity center with a short laser pulse, which turns the foil into expanding plasma, most of whose energy drives a blast wave in the cavity gas. Variables in the experiment are the cavity radius and explosion energy. Measurements and GEODYN code simulations show that shock pressures measured in the block exhibit a weak dependence on scaled cavity radius up to ∼25 m/kt1/3, above which they decrease rapidly. Possible mechanisms giving rise to this behavior are described. The applicability of this work to validating codes used to simulate full-scale cavity explosions is discussed.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- May 11, 2016
- Source ID
- 10.1063/1.4948952
Entities
People
- G. A. Cranch
- Jacob Grün
- James Weaver
- Kevin Fournier
- O. R. Walton
- R. Lunsford
- S. Compton
- W. Dunlop
Organizations
- Defense Threat Reduction Agency
- Lawrence Livermore National Laboratory
- United States Naval Research Laboratory