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dc.contributorMartinussen, Svein Erlenden_GB
dc.contributorMoxnes, John F.en_GB
dc.date.accessioned2018-10-15T12:12:07Z
dc.date.available2018-10-15T12:12:07Z
dc.date.issued2002
dc.identifier778
dc.identifier.isbn82-464-0681-7en_GB
dc.identifier.other2002/03291
dc.identifier.urihttp://hdl.handle.net/20.500.12242/1559
dc.description.abstractAs a first attempt at identifying a tissue model for use in wound ballistic simulations a study of the deceleration of spherical steel projectiles in soap has been carried out. Experimental data were compared to numerical simulations using AUTODYN-2D, and to predictions given by cavity expansion theory. We found that the AUTODYN-2D simulations show good agreement with experiment when a simple linear equation of state is used in conjunction with a Mieses strength model and a Pmin failure criterion . The predictions made using the cavity expansion theory do not agree well with experiments. A detailed investigation using the numerical model show that the cavity expansion theory agrees well only for the initial phase of the penetration. We believe that the dynamic part of the cavity expansion theory in general is wrong. Based on the theory for laminar flow and observations from AUTODYN-2D simulations, we propose improvements to the cavity expansion theory.en_GB
dc.language.isoenen_GB
dc.titleCavity expansion theory applied to the penetration of high speed spheres into weak targetsen_GB
dc.subject.keywordSkuddsåren_GB
dc.subject.keywordBallistikken_GB
dc.subject.keywordGjennomslagen_GB
dc.subject.keywordSåpeen_GB
dc.source.issue2002/03291en_GB
dc.source.pagenumber21en_GB


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