We found a match
Your institution may have access to this item. Find your institution then sign in to continue.
- Title
溶融金属液滴の衝突界面における凝固を伴う気孔形成過程の可視化 および計測
- Authors
城 田 農; 木 立 華 香; 大 川 拓 巳; 中 川 裕 亮; 前 田 一 明; 岡 部 孝 裕; 福 田 泰 行
- Abstract
The rapid cooling single-roll method is widely used to produce amorphous metal ribbons. To obtain more rapid and homogeneous cooling in the method, one needs to prevent the molten metal / solid interface from forming gas pores. We experimentally investigated the pore formation mechanism by directly observing the impact dynamics with the solidification of molten tin drops on a glass and sapphire substrate under an argon gas environment. We also measured the time variation in the temperature distribution on the substrate surface. As a result, we clarified that pores were formed mainly on the poorly conductive substrate, glass. In contrast, on the highly conductive substrate, sapphire, intermittent solidification layers were formed with thin gas layers between them. Furthermore, we derived two characteristic time scales for solidification relating to the sensible and the latent heats by employing one-dimensional thermal conduction analysis.
- Subjects
METALLIC glasses; LIQUID metals; LATENT heat; TEMPERATURE distribution; SAPPHIRES; THERMAL analysis
- Publication
Japanese Journal of Multiphase Flow, 2022, Vol 36, Issue 2, p220
- ISSN
0914-2843
- Publication type
Article