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Non-Smooth Morphologies of Typical Plant Leaf Surfaces and Their Anti-Adhesion Effects 被引量:19

Non-Smooth Morphologies of Typical Plant Leaf Surfaces and Their Anti-Adhesion Effects
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摘要 The micromorphologies of surfaces of several typical plant leaves were investigated by scanning electron microscopy(SEM). Different non-smooth surface characteristics were described and classified. The hydrophobicity and anti-adhesion of non-smooth leaf surfaces were quantitatively measured. Results show that the morphology of epidermal cells and the morphology and distribution density of epicuticular wax directly affect the hydrophobicity and anti-adhesion. The surface with uniformly distributed convex units shows the best anti-adhesion, and the surface with regularly arranged trellis units displays better anti-adhesion. In contrast, the surface with randomly distributed hair units performs relatively bad anti-adheslon. The hydrophobic models of papilla-ciliary and fold-setal non-smooth surfaces were set up to determine the impacts of geometric parameters on the hydrophobicity. This study may provide an insight into surface machine molding and apparent morphology design for biomimetics engineering. The micromorphologies of surfaces of several typical plant leaves were investigated by scanning electron microscopy(SEM). Different non-smooth surface characteristics were described and classified. The hydrophobicity and anti-adhesion of non-smooth leaf surfaces were quantitatively measured. Results show that the morphology of epidermal cells and the morphology and distribution density of epicuticular wax directly affect the hydrophobicity and anti-adhesion. The surface with uniformly distributed convex units shows the best anti-adhesion, and the surface with regularly arranged trellis units displays better anti-adhesion. In contrast, the surface with randomly distributed hair units performs relatively bad anti-adheslon. The hydrophobic models of papilla-ciliary and fold-setal non-smooth surfaces were set up to determine the impacts of geometric parameters on the hydrophobicity. This study may provide an insight into surface machine molding and apparent morphology design for biomimetics engineering.
出处 《Journal of Bionic Engineering》 SCIE EI CSCD 2007年第1期33-40,共8页 仿生工程学报(英文版)
基金 The authors are grateful to the financial support provided by the National Natural Science Foundation of China (No. 50635030);the Key Project of Chinese Ministry of Education (Grant No. 105059).
关键词 BIONICS NON-SMOOTH leaf surface HYDROPHOBICITY ANTI-ADHESION bionics, non-smooth, leaf surface, hydrophobicity, anti-adhesion
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