Initial energy partitioning and some excavation stage phenomenology in laboratory-scale cratering calculations in clayOne impact and two explosive cratering calculations have been analyzed with emphasis on the early excavation stage. The early excavation stage is here defined as that part of the excavation stage that occurs after energy partitioning is 90% complete, but before the cratering flow field can be well described by Z-type flow fields with values of Z uniformly greater than two. Impact generated flow fields seem to have a much longer early excavation stage than explosion generated flow fields, due possibly to the slower momentum transfer versus energy transfer rate between projectile and target. During this time when the projectile retains a significant portion of its original momentum, Z values less than two are observed in the impact generated flow field. Z values less than two are not observed at any time in the explosion generated flow fields.
Document ID
19820048257
Acquisition Source
Legacy CDMS
Document Type
Conference Proceedings
Authors
Austin, M. G. (Physics International Corp. San Leandro, CA, United States)
Thomsen, J. M. (Physics International Corp. San Leandro, CA, United States)
Ruhl, S. F. (Physics International Co. San Leandro, CA, United States)