Planetary impact craters study through low-speed laboratory experiments

•We show that low-speed impact experiments are useful for the study of planetary impact craters.•We analyse impact ejecta from laboratory low-speed impact experiments.•We show that low-speed impact experiments are consistent with high-speed impact experiments. In this work, we study the ejecta veloc...

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Bibliographic Details
Published in:International journal of impact engineering 2021-10, Vol.156, p.103954, Article 103954
Main Authors: Suárez-Cortés, Álvaro D., Flandes, Alberto, Durand-Manterola, Héctor J.
Format: Article
Language:English
Subjects:
[formula omitted] theorem
Craters
Ejecta
Ejecta curtain
Experiments
High speed cameras
Impact craters
Impact velocity
Laboratories
Laboratory impacts
Low speed
Low-speed impacts
Parameter estimation
Projectiles
Scaling laws
Velocity distribution
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Summary:•We show that low-speed impact experiments are useful for the study of planetary impact craters.•We analyse impact ejecta from laboratory low-speed impact experiments.•We show that low-speed impact experiments are consistent with high-speed impact experiments. In this work, we study the ejecta velocity distribution of impacts at low speeds (10m/s≲vp≲70m/s). Our experiments comprise impacts with steel and glass projectiles launched from a vertical PVC air cannon, on two different quartz sand targets and recorded with a high-speed camera. The dynamics of the separate ejecta grains as well as the diameters and final shapes of the output craters are investigated through the scaling method developed by Housen et al. [4] based on the dimensionless π-theorem. We also follow a similar method as Tsujido et al. [12], which allows us to derive scaling laws that connect impact events at different scales. We demonstrate that our results are consistent with experiments by previous works [1, 5, 12] carried out at much higher impact speeds (0.2≲vp≲1.5km/s). Our experiments show that it is possible to draw valuable information for the study of planetary impact craters from laboratory low-speed impact experiments, such that, based on the parameters derived from this analysis, we estimate the theoretical diameters of four known impact craters (Wolfe Creek, Barringer, Lonar Lake and Chícxulub craters).
ISSN:0734-743X
1879-3509
DOI:10.1016/j.ijimpeng.2021.103954