Undercooling state is metastable and immediately releasable by applying disturbance intentionally. Therefore, a 3D printer with considerably high modeling efficiency expectedly can be realized by using the supercooling phenomenon. This study discussed the applicability of the supercooling phenomenon in ice (H2O) to additive manufacturing. As a result, freezing of the supercooling phenomenon due to impact was observed. The freezing behavior depended on the flow rate, and freezing in the syringe was observed when the flow rate was high. In addition, when the conditions such as the amount of water droplet was adjusted, it was possible to fabricate shapes with simple structures by stacking.
|出版ステータス||Published - 2021|
|イベント||10th International Conference on Leading Edge Manufacturing Technologies in 21st Century, LEM 2021 - Virtual, Online|
継続期間: 2021 11月 14 → 2021 11月 18
|Conference||10th International Conference on Leading Edge Manufacturing Technologies in 21st Century, LEM 2021|
|Period||21/11/14 → 21/11/18|
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