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Structural observations and biomechanical measurements of clarinet reeds made from Arundo donax
Authors:Masahiro Kawasaki  Tadashi Nobuchi  Yuta Nakafushi  Masateru Nose  Masateru Shibata  Peng Li  Makoto Shiojiri
Affiliation:1. JEOL USA Inc, Peabody, Massachusetts, USA;2. Kyoto University, Kyoto, Japan;3. School of Science and Engineering, University of Toyama, Toyama, Japan;4. Faculty of Art and Design, University of Toyama, Takaoka, Japan;5. nanoFAB Fabrication and Characterization Centre, University of Alberta, Edmonton, Alberta, Canada;6. Kyoto Institute of Technology, Kyoto, Japan
Abstract:Plant anatomy was examined for two clarinet reeds made out of Arundo donax by different means of microscopy: light microscopy, low‐energy secondary electron scanning electron microscopy (SEM), backscattered electron SEM, and helium ion microscopy (HiM). The local indentation hardness HIT and Young's modulus EIT of different tissues on their cross sections were measured. A vascular bundle (Vb) (HIT = 60–100 MPa, EIT = 1,500–2,000 MPa) that includes soft tissues of phloem and xylem and a vascular bundle sheath (Bs) (HIT = 300–500 MPa, EIT = ~7,000 MPa) form a pipe of the strong string along the longitudinal direction of the cane. This Vb/Bs string is connected transversally with a net of thin cell‐walls of parenchyma cells (Pa) (HIT = 70–200 MPa, EIT = 2,000–3,000 MPa) that also range along the longitudinal direction of the cane. It was turned out that the acoustic quality of a reed is mainly ascribed to the shape and configuration of Vb and the size of Pa. A reed where Vb bundles with continuous Bs rings are homogeneously distributed with higher proportion among a softer network of small Pa cells enables musical performance.
Keywords:Arundo donax  clarinet reed  hardness  plant anatomy  Young's modulus
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