In order to investigate mechanisms of phase transitions of supercooled water in a triple-point-of-water (TPW) cell when a mush method was used to create an ice mantle, an automated apparatus using small TPW cells was developed to obtain the TPW. In this article, the design principle, the apparatus, and the procedure for an automated formation of ice mantles in small TPW cells are described. Supercooled water in small TPW cells spontaneously transformed into uniform metastable dendritic crystals throughout the cells at supercoolings ranging from 5.85 °C to 8.77 °C and then changed into stable hexagonal closed-packed cellular crystals, forming an outer ice mantle from the outside inward. Some pertinent explanations based on thermodynamic solidification theory were used to describe the phase transition process in the mush method. In addition, the experimental results indicated that the realized temperatures of water in the small TPW cells were in good agreement within 0.1 mK approximately 6 h after the initial spontaneous crystallization had occurred. Finally, the small TPW cells (s 008 and s 001) were directly compared with a conventional TPW cell (s NIM-1-211); the temperature differences between the small TPW cells and the regular TPW cell were less than 0.21 mK.
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机译:为了研究使用糊状法制造冰幔时三水位(TPW)池中过冷水的相变机理,开发了一种使用小型TPW池的自动化设备来获得TPW。在本文中,描述了在小型TPW单元中自动形成冰幔的设计原理,设备和过程。小型TPW电池中的过冷水在5.85°C至8.77°C的过冷度下自发地在整个电池中转变为均匀的亚稳态树突状晶体,然后变为稳定的六角形密堆积细胞晶体,从外向内形成外冰幔。基于热力学凝固理论的一些相关解释被用来描述糊状法的相变过程。此外,实验结果表明,在最初的自发结晶发生后约6小时内,小型TPW电池中水的实际温度在0.1 mK内吻合良好。最后,直接将小型TPW电池(序列号008和s / n 001)与常规TPW电池(序列号NIM-1-211)进行比较;小型TPW电池与常规TPW电池之间的温差小于0.21 mK。
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