Bearing Capacity of Simulated Lunar Surfaces in Vacuum

Abstract

The static bearing capacity of a granular material consisting of dry, crushed olivine basalt was determined in air and in a 10^(-6)-mm-Hg vacuum by means of cylindrical probes with a range of diameters. Samples with various particle-size distributions (all below 35 mesh) were used for these tests. It was found that the packing density of these granular materials was the factor that had the greatest effect on the bearing capacity. The minimum bearing capacity of a loosely packed sample with a density of 1.25 g/cm^3 was about 0.1 k g/cm^2. The maximum bearing capacity of a densely packed sample with density of 2.1 g/cm^3 was about 7kg/cm^2. The effects of vacuum were insignificant compared with the effect of packing density. Direct shear tests indicated the cohesion in a few densely packed samples to be 1-2 x 10^4 dyne/cm^2. For the small probes used, the cohesion was estimated to contribute 85 lo 95% of the observed bearing capacity for the densely packed samples but much less for the loosely packed samples.

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