带有陀螺铰链的弹性手性波导

IF 0.8 4区 工程技术 Q3 MATHEMATICS, APPLIED
G. Carta, M. Nieves, I. Jones, N. Movchan, A. Movchan
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引用次数: 22

摘要

本文提出了一种新的手性结构,由欧拉-伯努利光束连接到陀螺仪旋转器。引入了一种新的边界条件,称为陀螺铰。在这个系统中,弯曲波与旋转运动耦合。通过假设旋动角较小,推导出时谐条件。计算结果表明,一端或两端有回转铰链的有限梁的本征频率随转动惯量和回转铰链的自旋和进动速率而发生显著变化。然后将该公式推广到具有周期间隔陀螺铰链的弹性梁,并对其色散特性进行了详细的研究。特别地,它显示了在结处引入陀螺仪旋转器是如何影响停止带和静止模式的。还证明了由回转铰链连接的梁组成的周期系统是回转梁的很好近似,回转梁是由具有连续分布的存储角动量的弹性梁组成的理论结构单元。然后用带有陀螺仪旋转器的光束系统的物理参数来解释陀螺仪旋转系数。本文为手性机械系统的设计和实际实现开辟了一个新的视角。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Elastic Chiral Waveguides with Gyro-Hinges
This article presents a novel chiral structure, consisting of Euler–Bernoulli beams connected to gyroscopic spinners.Anew type of boundary condition is introduced, which is referred to as a gyrohinge. In this system, flexural waves are coupled with rotational motion.Time-harmonic conditions are derived by assuming small nutation angles of the spinners. It is shown that the eigenfrequencies of a finite beam with gyro-hinges at one or both ends change dramatically with the moments of inertia and the spin and precession rates of the spinners. The formulation is then extended to elastic beams with periodically-spaced gyro-hinges, whose dispersion properties are investigated in detail. In particular, it is shown how stop-bands and standing modes are affected by the introduction of gyroscopic spinners at the junctions. It is also demonstrated that a periodic system composed of beams connected by gyro-hinges represents a good approximation of a gyrobeam, a theoretical structural element consisting of an elastic beam possessing a continuous distribution of stored angular momentum. The gyricity coefficient of a gyrobeam is then interpreted in terms of the physical parameters of the system of beams with gyroscopic spinners. This article opens a new perspective on the design and practical implementation of chiral mechanical systems.
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来源期刊
CiteScore
1.90
自引率
11.10%
发文量
14
审稿时长
>12 weeks
期刊介绍: The Quarterly Journal of Mechanics and Applied Mathematics publishes original research articles on the application of mathematics to the field of mechanics interpreted in its widest sense. In addition to traditional areas, such as fluid and solid mechanics, the editors welcome submissions relating to any modern and emerging areas of applied mathematics.
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