Selected Geotechnical Properties of a Calibration Test. Buried Explosives Against Shallow Targets.

This report characterizes the geotechnical properties of a grout material used as a testbed for the Defense Nuclear Agency sponsored project, Buried Explosives Against Shallow Water Targets (BEAST), a calibration test. The BEAST research program was designed to model the behavior of explosion shock...

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Bibliographic Details
Main Authors: Sawyer, William B., McCrocklin, Kingsley H., Lambert, Michael W., Kennedy, Conrad S., Maynard, Lafayette G.
Other Authors: NAVAL RESEARCH LAB STENNIS SPACE CENTER MS
Format: Text
Language:English
Published: 1995
Subjects:
Physical and Dynamic Oceanography
Explosions
*SEDIMENT TRANSPORT
*UNDERWATER EXPLOSIONS
DATA BASES
DENSITY
SHOCK WAVES
EXPLOSIVE CHARGES
GRAIN SIZE
POROSITY
FLY ASH
GROUT
EXPLOSION EFFECTS
SATURATION
SHALLOW WATER
CLAY
BURIED OBJECTS
VOLUMETRIC ANALYSIS
LITTORAL ZONES
MARINE ENGINEERING
NORTH ATLANTIC OCEAN
SEDIMENTS
GEOTECHNICAL ENGINEERING
OCEAN BOTTOM
DETONATIONS
SHEAR STRENGTH
UNDERWATER MINES
SILT
CORE SAMPLING
CHESAPEAKE BAY
PE61153N
WUDN153062
North Atlantic
Online Access:http://www.dtic.mil/docs/citations/ADA304158
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA304158
Description
Summary:This report characterizes the geotechnical properties of a grout material used as a testbed for the Defense Nuclear Agency sponsored project, Buried Explosives Against Shallow Water Targets (BEAST), a calibration test. The BEAST research program was designed to model the behavior of explosion shock waves in gassy littoral marine sediments and the effects on a ship passing over an exploding mine buried in such sediments. The grout material was chosen as a 'synthetic sediment' which would simulate a natural, gassy, littoral marine sediment deposit. The grout was core-sampled and analyzed for mass physical and mechanical properties both prior to and after an explosive charge was detonated within the testbed grout material. The resultant physical properties determined from the grout were compared to those same properties derived from natural marine sediments. Significant similarities and differences were noted for future work with the grout for testbed purposes. In summary, shear strength data appear to be reasonably good measurements; physical property measurements including water content, wet bulk density, dry bulk density, and textural analysis (gross grain size) appear to be reasonable and of high quality. The greatest concern appears to be the inability to obtain reliable grain density measurements and, thus, confidence in the derivative physical property determinations (percent gas, percent saturation, porosity, and void ratio). The differences and variability in the grain densities significantly affects volumetric measurements of gas content, percent saturation, porosity, and void ratio. (AN)

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