The effect of viscosity on impact cratering and possible application to the icy satellites of Saturn and Jupiter

Details The effect of viscosity on impact cratering and possible application to the icy satellites of Saturn and Jupiter The effect of viscosity on impact cratering and possible application to the icy satellites of Saturn and Jupiter

Jan 1984

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1984jgr....89..417f&link_type=abstract

Journal of Geophysical Research (ISSN 0148-0227), vol. 89, Jan. 10, 1984, p. 417-423.

Physics

13

Cratering, Icy Satellites, Jupiter Satellites, Satellite Surfaces, Saturn Satellites, Viscosity, Gravitational Effects, Ice, Newtonian Fluids, Projectile Cratering, Rheology, Planets, Jupiter, Satellites, Saturn, Viscosity, Impacts, Cratering, Icy Bodies, Experiments, Volume, Shape, Parameters, Gravity Effects, Kinematics, Projectiles, Diameter, Velocity, Density, Mantles, Crust, Ages, Dating Techniques, Data, Vertical Gun

Scientific paper

Impact experiments in Newtonian fluids with a range of viscosities of 0.001 to 60 Pa s demonstrate that transient crater volume and shape depend on target viscosity as well as on gravity. Volume is reduced, and depth-to-diameter ratio is increased for cratering events in which viscosity plays a dominant role. In addition to being affected by target kinematic viscosity, viscous scaling is most strongly influenced by projectile diameter, less strongly by projectile velocity, and least strongly by gravity. In a planetary context, viscous effects can occur for craters formed by small or slow moving impacting bodies, low planetary surface densities, high surface viscosities, and low gravity values; conditions all likely for certain impacts into the icy satellites of Saturn and Jupiter, especially if liquid mantles were still present beneath solid crusts. Age dating based on crater counts and size-frequency distributions for these icy bodies may have to be modified to account for the possibility that viscosity-dominated craters were initially smaller and deeper than their gravity-controlled counterparts.

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