Earth and Space 2012 2012
DOI: 10.1061/9780784412190.033
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Using Percussive, Dynamic, and Static Soil Penetrometers to Assess Geotechnical Properties and the Depth to Ground Ice of the Mars and Lunar Analog Terrains on the Devon Island, Canadian Arctic

Abstract: In the summer of 2011, we used three geotechnical instruments to assess the ground conditions in planetary analog sites on the Devon Island, Canadian High Arctic. The instruments included Percussive Cone Penetrometer (PCP) developed by Honeybee Robotics, and the two off the shelf instruments: Dynamic Cone Penetrometer (DCP), and the Static Cone Penetrometer (SCP). The three systems differed by the methods the rod was driven into the soil. SCP used a reaction force provided by the operator to drive the rod into… Show more

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“…To study the in-situ behavior of soil materials under impact penetration, other sophisticated experimental techniques such as photo-elasticity [113] and grain-scale particle tracking [114] have been developed. The results of impact penetration tests may also be used with greater accuracy and reliability for sub-surface investigations [115] and may replace the conventional cone penetration test. Other impact penetration applications include remote soil exploration (including extra-terrestrial), seismic monitoring and surveying, and post-construction exploration of the soil properties of large earth structures [116].…”
Section: Experimental Methodsmentioning
confidence: 99%
“…To study the in-situ behavior of soil materials under impact penetration, other sophisticated experimental techniques such as photo-elasticity [113] and grain-scale particle tracking [114] have been developed. The results of impact penetration tests may also be used with greater accuracy and reliability for sub-surface investigations [115] and may replace the conventional cone penetration test. Other impact penetration applications include remote soil exploration (including extra-terrestrial), seismic monitoring and surveying, and post-construction exploration of the soil properties of large earth structures [116].…”
Section: Experimental Methodsmentioning
confidence: 99%