Vibration Characteristic of a Transition Constrained Damping Beam Based on the Shear Dissipating Energy Assumption

June 2019 Pub Date : 2019-06-01 DOI:10.20855/IJAV.2019.24.21538

B. Yan, Huijun Liang, Minjie Jin

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引用次数: 1

Abstract

Adding a “transition layer” could further improve the dissipation ability of the original constrained damping structure to the external vibration. At the same time, the addition of the transition layer brings many difficulties in establishing the model and acquiring the relevant characteristics of the• structure. Based on the shear dissipating energy assumption and the Hamilton principle, the finite element model of the transition constrained damping beam is established. On the basis of this reasonable assumption, the whole derivation process is simplified and easy to read by regularizing the element stiffness and mass matrix, and the expression of loss factor and natural frequency of damping beam is obtained. In order to verify the correctness of the model, the computed results are compared with the analytical solution, and both are found to be in good agreement. Taking the cantilever damping beam as an example, the influence of the material choice of the transition layer and the structural parameters on the natural frequency and the loss factor of the structure are discussed. The results of this paper would lay a good foundation for further optimization and practical engineering application.

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基于剪切耗散能量假设的过渡约束阻尼梁振动特性

增加“过渡层”可以进一步提高原约束阻尼结构对外部振动的耗散能力。同时，过渡层的加入给模型的建立和结构相关特征的获取带来了诸多困难。基于剪切耗散假设和Hamilton原理，建立了过渡约束阻尼梁的有限元模型。在此合理假设的基础上，通过对单元刚度矩阵和质量矩阵进行正则化，简化了整个推导过程，使其易于理解，得到了阻尼梁的损耗因子和固有频率的表达式。为了验证模型的正确性，将计算结果与解析解进行了比较，两者吻合较好。以悬臂梁为例，讨论了过渡层材料选择和结构参数对结构固有频率和损耗因子的影响。本文的研究结果为进一步优化和实际工程应用奠定了良好的基础。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

June 2019

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