微飛行器發展主流:撓性薄膜翼與仿生物拍擊翼,撓性薄膜機翼可使高攻角可撓性薄膜翼CL續增而失速角可延後至30o~45o,但低雷諾數、低展弦比之層流脫離再依附之低壓區分佈,層流、過渡流及紊流模式尚未明確,邊際渦漩複雜流場對升阻比影響、低展弦比滾動不穩定較敏感及環境風速變動相較於飛行風速易產生Re與攻角連續變化等問題存在,本研究建構薄膜翼,啟動流體/結構數值模擬,原創仿生物拍擊機翼紊流器及水洞雷射測試,以強化空氣動力性能,提高升阻比與飛行穩定,改善邊際渦漩之複雜流場。流、固耦合低攻角數值模型已建立可分析撓性材料 The main streams of micro aerial vehicles development: membrane wings and insect-like / bird-like flapping wings. Membrane wings can keep continuously increasing CL as higher angle of attacks and delay the dynamic stall angle to . But laminar as flow in l
