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    Please use this identifier to cite or link to this item: https://ir.lib.ncu.edu.tw/handle/987654321/98733


    Title: 親水液滴擴展之流場顯影研究:甘油濃度與基板溫度的影響;Flow field visualization for hydrophilic droplets spread: Effects of glycerol concentration and substrate temperature
    Authors: 林維濂;LIN, WEI-LIEN
    Contributors: 機械工程學系
    Keywords: 液滴擴展;甘油濃度;加熱基板;流場顯影;馬蘭哥尼流;droplets spread;glycerol concentration;heated substrate;flow visualization;Marangoni flow
    Date: 2025-08-01
    Issue Date: 2025-10-17 13:11:35 (UTC+8)
    Publisher: 國立中央大學
    Abstract: 液滴之擴展行為在噴墨列印與電子元件塗層等多項應用中扮演關鍵角色,其動態行
    為與內部流動機制將直接影響實際應用之品質與效率。當基板被加熱時,液滴所受之蒸
    發冷卻效應與馬蘭哥尼效應將對其擴展行為產生顯著影響,並可能導致擴展過程受到抑
    制。為深入探討此一現象,本研究系統性分析不同基板溫度條件下液滴內部流場之轉換
    行為與流速變化。
    實驗中使用三種甘油–水溶液濃度(30、40、50 wt%)與四種基板溫度(27、40、
    50、60 °C),並結合聚苯乙烯螢光粒子與高速攝影技術,針對液滴擴展初期(一秒內)
    進行流場顯影與分析。研究結果顯示,相較於低溫基板(27、40 °C),高溫基板(50、
    60 °C),初期階段液滴回彈振盪時期略為延長,而後期階段能誘發更強烈之馬蘭哥尼回
    縮現象,有效抑制液滴的擴展行為。;The spreading behavior of droplets plays a critical role in various applications such as
    inkjet printing and electronic component coating. The dynamics and internal flow mechanisms
    of droplets directly affect the quality and efficiency of these processes. When the substrate is
    heated, evaporative cooling and Marangoni effects significantly influence droplet spreading and
    may suppress the spreading process. To gain a deeper understanding of this phenomenon, this
    study systematically analyzes the transition of internal flow patterns and velocity changes in
    droplets under different substrate temperature conditions.
    Experiments were conducted using glycerol–water solutions at three concentrations (30,
    40, and 50 wt%) and four substrate temperatures (27, 40, 50, and 60 °C). Polystyrene
    fluorescent particles combined with high-speed imaging were employed to visualize and
    analyze the flow field within the first second of the droplet spreading process. The results show
    that, compared to low-temperature substrates (27 and 40 °C), high-temperature substrates (50
    and 60 °C) prolong the initial droplet oscillation and rebound phase, and subsequently induce
    stronger Marangoni backflow, effectively suppressing droplet spreading.
    Appears in Collections:[Graduate Institute of Mechanical Engineering] Electronic Thesis & Dissertation

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