Journal
ICARUS
Volume 216, Issue 1, Pages 1-9Publisher
ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.icarus.2011.08.018
Keywords
Impact processes; Ices, Mechanical properties; Cratering
Categories
Funding
- Japan Ministry of Education, Culture, Sports, Science and Technology [17340127, 20340118]
- Institute of Low Temperature Science, Hokkaido University
- Grants-in-Aid for Scientific Research [22244056, 17340127, 23103004, 20340118, 22840049] Funding Source: KAKEN
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To improve the scaling parameter controlling the impact crater formation in the strength regime, we conducted impact experiments on sintered snow targets with the dynamic strength continuously changed from 20 to 200 kPa, and the largest crater size formed on small icy satellites was considered by using the revised scaling parameter. Ice and snow projectiles were impacted on a snow surface with 36% porosity at an impact velocity from 31 m s(-1) to 150 m s(-1). The snow target was sintered at the temperature from -5 degrees C to -18 degrees C, and the snow dynamic strength was changed with the sintering duration at each temperature. We found that the mass ejected from the crater normalized by the projectile mass, Thy, was related to the ratio of the dynamic strength to the impact pressure, pi*(Y), as follows: pi(V) = 0.01 pi*(-1.2)(Y), where the impact pressure was indicated by P = rho(t)C(0t) nu(i)/2 with the target density of rho(t), when the impact velocity, was much smaller than the bulk sound velocity C(0t) (typically 1.8 km s(-1) in our targets). The ratio of the largest crater diameter to the diameter of the target body, d(max)/D, was estimated by calculating the crater diameter at the impact condition for catastrophic disruption and then compared to the observed d(max)/D of jovian and saturnian small satellites, in order to discuss the formation condition of these large d(max)/D in the strength regime. (C) 2011 Elsevier Inc. All rights reserved.
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