All atmosphere-less planetary bodies are covered with a dust layer, the so-called regolith, which determines the optical, mechanical and thermal properties of their surface. These properties depend on the regolith material, the size distribution of the particles it consists of, and the porosity to which these particles are packed. We performed experiments in parabolic flights to determine the gravity dependency of the packing density of regolith for solid-particle sizes of 60 pm and I mm as well as for 100-250 mu m-sized agglomerates of 1.5 mu m-sized solid grains. We utilized g-levels between 0.7 m S-2 and 18 m s(-2) and completed our measurements with experiments under normal gravity conditions. Based on previous experimental and theoretical literature and supported by our new experiments, we developed an analytical model to calculate the regolith stratification of celestial rocky and icy bodies and estimated the mechanical yields of the regolith under the weight of an astronaut and a spacecraft resting on these objects. (C) 2015 Elsevier Inc. All rights reserved.
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机译:所有无大气层的行星体都覆盖有一层尘埃,即所谓的粉煤灰,它决定了其表面的光学,机械和热学性质。这些性质取决于硬质合金材料,其组成的颗粒的尺寸分布以及这些颗粒所填充的孔隙率。我们在抛物线形飞行中进行了实验,以确定固体颗粒尺寸为60 pm和1 mm以及1.5-μm尺寸的固体颗粒的100-250μm尺寸的团块的重碎石堆积密度的重力依赖性。我们利用介于0.7 m S-2和18 m s(-2)之间的g级,并在正常重力条件下通过实验完成了测量。在先前的实验和理论文献的基础上,并在我们的新实验的支持下,我们开发了一种分析模型,用于计算天体岩石和冰体的and石分层,并在宇航员和依靠它们的航天器的重量下估计re石的机械屈服对象。 (C)2015 Elsevier Inc.保留所有权利。
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