Vibration Minimisation of Moving Flexible Slender Structures Based on Time-Parameterised B-Spline

IF 1.9 Q3 ENGINEERING, MECHANICAL Vibration Pub Date : 2023-09-27 DOI:10.3390/vibration6040046
Marco Riboli, Elisabetta Manconi, Dario Fusai, Marco Silvestri, Alessandra Aimi
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Abstract

Vibration mitigation of moving flexible structures is a key issue in many applications. Examples include antennas, solar arrays, radar reflectors, and manipulator arms, especially in the aerospace sector. These structures typically consist of inter-connected slender and flexible elements moved by external actuators to reach specific configurations and positions. The movements excite vibrations, which lead to the risk of structural and fatigue failures; once in position, residual vibrations can be further amplified by structure lightness, causing bad performance and malfunctioning of onboard sensors. This paper proposes an effective technique to minimise the vibration of moving flexible structures by calculating the control points of a time-parametrised B-spline representing the shape of the motion law. A testing case of a rotating cantilever beam is considered. Validation using multi-flexible-body simulation software has shown the method’s effectiveness in minimising residual vibrations.
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基于时间参数b样条的运动柔性细长结构振动最小化
在许多应用中,运动柔性结构的减振是一个关键问题。例子包括天线、太阳能电池阵列、雷达反射器和机械臂,特别是在航空航天领域。这些结构通常由相互连接的细长且灵活的元件组成,由外部执行器移动以达到特定的配置和位置。这些运动激发振动,导致结构和疲劳失效的风险;一旦就位,残余振动会因结构轻而进一步放大,导致机载传感器性能不佳和故障。本文提出了一种有效的方法,通过计算时间参数化b样条的控制点来表示运动规律的形状,从而使运动柔性结构的振动最小化。考虑了旋转悬臂梁的试验情况。利用多柔体仿真软件验证了该方法在最小化残余振动方面的有效性。
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来源期刊
CiteScore
3.20
自引率
0.00%
发文量
0
审稿时长
10 weeks
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