The Impact of Tissue Morphology, Cross-Section and Turgor Pressure on the Mechanical Properties of the Leaf Petiole in Plants
This paper describes a study of petiole structural morphology in which tissue materials, cross-sectional geometry, layer-architecture and hydrostatic condition are variables that affect the overall structural properties of the organ. Philodendron melinonii is selected as a model species for characterizing the mechanical properties of the petiole. The shape of the petiole is modeled through the polar parameterization of the Lames curves, i.e. Gielis formulation. A multiscale model of bending stiffness is proposed to capture the impact of changing the constituent tissues and the cross-sectional geometry. Stiffness and density of different tissues are used to plot the domain bounded by the limiting curve of the respective tissue material. Shape parameters and the respective tissue properties are used to generate structural efficiency maps displaying property domains within which fall all possible combinations of tissues that are shaped into a certain geometry during growth. The turgor pressure is also taken into account to show how the domain of the effective material properties changes with water content. Finite element analysis besides experimental data is used to validate the theoretical results. The maps may offer a source of inspiration for biomimetic design, as they help to gain insight into the efficiency of biological beams described by different tissues properties, geometry and turgidity.
leaf petiole structural hierarchy turgor pressure shape transformer
Tanvir Rahman Faisal Ehsan M. Khalil Abad icolay Hristozov Damiano Pasini
Department of Mechanical Engineering, McGill University, 817 Sherbrooke Street West, Montreal, Quebe Department of Mechanical Zngineering,McGill University, 817 Sherbrooke Street West,Montreal, Quebec Department of Biology, McGill University,1205 Docteur Penfield, Montreal, Quebec H3A 1B1,Canada
国际会议
The 3rd International Conference of Bionic Engineering(第三届国际仿生工程会议ICBE10)
珠海
英文
11-23
2010-09-14(万方平台首次上网日期,不代表论文的发表时间)