Subwavelength elastic joints connecting torsional waveguides to maximize the power transmission coefficient

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• 作者：Joong Seok Lee^a ; ¹ ; Il Kyu Lee^b ; ² ; Hong Min Seung^c ; ² ; Jun Kyu Lee^d ; Yoon Young Kim^d ; ^e ; ^{yykim@snu.ac.kr}
• 关键词：Optimal joint shape ; Subwavelength joint ; Shape optimization ; Gourd-like shape ; Power transmission coefficient
• 刊名：Journal of Sound and Vibration
• 出版年：2017
• 出版时间：31 March 2017
• 年：2017
• 卷：392
• 期：Complete
• 页码：154-169
• 全文大小：1877 K
• 卷排序：392

文摘

Joints with slowly varying tapered shapes, such as linear or exponential profiles, are known to transmit incident wave power efficiently between two waveguides with dissimilar impedances. This statement is valid only when the considered joint length is longer than the wavelengths of the incident waves. When the joint length is shorter than the wavelengths, however, appropriate shapes of such subwavelength joints for efficient power transmission have not been explored much. In this work, considering one-dimensional torsional wave motion in a cylindrical elastic waveguide system, optimal shapes or radial profiles of a subwavelength joint maximizing the power transmission coefficient are designed by a gradient-based optimization formulation. The joint is divided into a number of thin disk elements using the transfer matrix approach and optimal radii of the disks are determined by iterative shape optimization processes for several single or bands of wavenumbers. Due to the subwavelength constraint, the optimized joint profiles were found to be considerably different from the slowly varying tapered shapes. Specifically, for bands of wavenumbers, peculiar gourd-like shapes were obtained as optimal shapes to maximize the power transmission coefficient. Numerical results from the proposed optimization formulation were also experimentally realized to verify the validity of the present designs.