Banglu Xi scite author profile

In contrast to terrestrial environment, the harsh lunar environment conditions include lower gravity acceleration, ultra-high vacuum and high (low) temperature in the daytime (night-time). This paper focuses on the effects of those mentioned features on soil cutting tests, a simplified excavation test, to reduce the risk of lunar excavation missions. Soil behavior and blade performance were analyzed under different environmental conditions. The results show that: (1) the cutting resistance and the energy consumption increase linearly with the gravity. The bending moment has a bigger increasing rate in low gravity fields due to a decreasing moment arm; (2) the cutting resistance, energy consumption and bending moment increase significantly because of the raised soil strength on the lunar environment, especially in low gravity fields. Under the lunar environment, the proportions of cutting resistance, bending moment and energy consumption due to the effect of the van der Waals forces are significant. Thus, they should be taken into consideration when planning excavations on the Moon. Therefore, considering that the maximum frictional force between the excavator and the lunar surface is proportional to the gravity acceleration, the same excavator that works efficiently on the Earth may not be able to work properly on the Moon.Peer ReviewedPostprint (author's final draft

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Experimental and DEM analyses on wheel-soil interaction

Jiang

Dai

Cui

et al. 2018

Journal of Terramechanics

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Soil Mechanics–Based Testbed Setup for Lunar Rover Wheel and Corresponding Experimental Investigations

et al. 2017

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Exploring the critical state properties and major principal stress rotation of sand in direct shear test using the distinct element method

Jiang

Shen

et al. 2018

Granular Matter

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DEM Simulation of Dynamic Compaction with Different Tamping Energy and Calibrated Damping Parameters

Jiang

2016

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Banglu Xi

DEM simulation of soil-tool interaction under extraterrestrial environmental effects

Experimental and DEM analyses on wheel-soil interaction

Soil Mechanics–Based Testbed Setup for Lunar Rover Wheel and Corresponding Experimental Investigations

Exploring the critical state properties and major principal stress rotation of sand in direct shear test using the distinct element method

DEM Simulation of Dynamic Compaction with Different Tamping Energy and Calibrated Damping Parameters

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