Login / Signup

Geological timescales' aging effects of lunar glasses.

Ziqiang ChenYong ZhaoXiang ChiYuqiang YanJie ShenMinjie ZouShaofan ZhaoMing LiuWei YaoBo ZhangHai-Bo KeXiu-Liang MaHai-Yang BaiMengfei YangZhigang ZouWei-Hua Wang
Published in: Science advances (2023)
Physical aging is a long-lasting research hot spot in the glass community, yet its long-term effects remain unclear because of the limited experimental time. In this study, we discover the extraordinary aging effects in five typical lunar glassy particles with diameters ranging from about 20 to 53 micrometers selected from Chang'e-5 lunar regolith. It is found that geological time scales' aging can lead to unusually huge modulus enhancements larger than 73.5% while much weaker effects on hardness (i.e., varies decoupling evolutions of Young's modulus and hardness during aging) in these lunar glassy samples. Such extraordinary aging effects are primarily attributed to the natural selected complex glassy compositions and structures, consistent with high entropy and minor element doping criteria, prevailing under the special lunar conditions and the extensive aging time for the lunar glasses. This study offers valuable insights for developing high-performance and stable glassy materials for radiation protection and advanced space explorations.
Keyphrases
  • mental health
  • healthcare
  • radiation therapy
  • middle aged