Corpus ID: 54807674

Hammering beneath the surface of Mars - modeling and simulation of the impact-driven locomotion of the HP 3 -Mole by coupling enhanced multi-body dynamics and discrete element method

@inproceedings{Lichtenheldt2014HammeringBT,
  title={Hammering beneath the surface of Mars - modeling and simulation of the impact-driven locomotion of the HP 3 -Mole by coupling enhanced multi-body dynamics and discrete element method},
  author={R. Lichtenheldt and B. Sch{\"a}fer and O. Kroemer},
  year={2014}
}
  • R. Lichtenheldt, B. Schäfer, O. Kroemer
  • Published 2014
  • Engineering
  • As the formation of the rocky planets in our inner solar system has always been a major subject of scientific interest, NASA’s discovery mission InSight (Interior Seismic Investigations, Geodesy and Heat Transport) intends to gain further knowledge about the interior structure of Mars. In order to understand the processes that lead to planetary evolution, Mars’ seismic as well as thermal properties will be measured. DLR’s HP3-Mole (Heat Flow and Physical Properties Package), an innovative self… CONTINUE READING
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