放气
低温冷却器
围带
风化土
热电偶
残余气体分析仪
核工程
火星探测计划
环境科学
材料科学
航空航天工程
机械工程
工程类
物理
天体生物学
复合材料
离子
量子力学
天文
作者
Roman V. Kruzelecky,Piotr Murzionak,Paul Burbulea,Martin Mena,Ian Sinclair,Gregory W. Schinn,E. A. Cloutis
出处
期刊:Earth and Space 2021
日期:2021-04-15
卷期号:: 1012-1026
被引量:3
标识
DOI:10.1061/9780784483374.093
摘要
The dusty thermal vacuum (DTVAC) lunar and/or Mars environmental testing facility was designed and built to simulate the relatively extreme lunar near-surface conditions. DTVAC can accommodate test devices up to 1 × 1 × 0.9 m3 in volume, including smaller robotic assemblies, small drill assemblies, science payloads, and surface devices such as radiators and solar panels. Depending on the testing requirements, cooling can be provided either using a recirculating chiller to about 213 K or using LN2 down to about 90 K. In addition, cooling within the DTVAC facility to 41 K using liquid helium was successfully validated on a smaller, 0.25 m × 0.25 m, platen covered with lunar regolith simulant. For the LHe platen cooling, the shroud was cooled using LN2 to provide a thermal buffer. Recently, the DTVAC facility was equipped with an additional 25 Type-T thermocouples to improve its temperature monitoring capabilities, and a 1 to 200 amu residual gas analyzer (RGA) in order to identify the molecular composition of any outgassing from articles under test. A LN2-cooled cold finger was also installed to assist the system vacuum pump down and to facilitate the study of in-situ volatiles. This paper reviews the DTVAC upgrades, functionality calibrations, and summarizes its current capabilities.
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