A Fractional Dervative Viscoelastic Model for Hybrid Active-Passive Damping Treatments in Time Domain-Application to Sandwich Beams

A. C. GALUCIO; J.-F. DEU; R. OHAYON

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A Fractional Dervative Viscoelastic Model for Hybrid Active-Passive Damping Treatments in Time Domain-Application to Sandwich Beams

机译：时域混合主动-被动阻尼处理的分数阶递推粘弹性模型-夹层梁应用

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摘要

This work presents a finite element formulation for the dynamic transient analysis of a damped adaptive sandwich beam composed of a viscoelastic core and elastic-piezoelectric laminated faces. The latter are modeled using the classical laminate theory, which takes the electromechanical coupling into account by modifying the stiffness of the piezoelectric layers. For the core, a fractional derivative model is used to characterize its viscoelastic behavior. Equations of motion are solved using a direct time integration method based on the Newmark scheme in conjunction with the Grtinwald approximation of fractional derivatives. Emphasis is given to the finite element implementation of the fractional derivative model and to the influence of the electromechanical coupling.

机译：这项工作为阻尼自适应夹层梁的动态瞬态分析提供了一个有限元公式，该阻尼自适应夹层梁由粘弹性芯和弹性压电层压面组成。后者是使用经典的叠层理论建模的，该理论通过修改压电层的刚度来考虑机电耦合。对于岩心，分数导数模型用于表征其粘弹性行为。使用基于Newmark方案的直接时间积分方法结合分数导数的Grtinwald逼近来求解运动方程。重点是分数导数模型的有限元实现和机电耦合的影响。

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来源
《Journal of intelligent material systems and structures》 |2005年第1期|p.33-45|共13页
作者
A. C. GALUCIO; J.-F. DEU; R. OHAYON;
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作者单位

Structural Mechanics and Coupled Systems Laboratory, Conservatoire National des Arts et Metiers 2 rue Conte, 75003 Paris, France;

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原文格式 PDF
正文语种 eng
中图分类智能材料;
关键词
hybrid piezoelectric-viscoelastic damping treatment; fractional derivatives; sandwich beam; finite element method; transient dynamic analysis;

机译：压电-粘弹性混合阻尼处理;分数阶导数;夹层梁;有限元法;瞬态动力分析;

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专利

1. Finite element modelling of hybrid active-passive vibration damping of multilayer piezoelectric sandwich beams-part I: Formulation [J] . M. A. Trindade, A. Benjeddou, R. Ohayon International Journal for Numerical Methods in Engineering . 2001,第7期

机译：多层压电夹层梁混合主动-被动振动阻尼的有限元建模-第一部分：配方
2. Finite element modelling of hybrid active-passive vibration damping of multilayer piezoelectric sandwich beams-part II: System analysis [J] . M. A. Trindade, A. Benjeddou, R. Ohayon International Journal for Numerical Methods in Engineering . 2001,第7期

机译：多层压电夹层梁混合主动-被动振动阻尼的有限元建模-第二部分：系统分析
3. Hybrid Active-Passive Damping Treatments Using Viscoelastic and Piezoelectric Materials: Review and Assessment [J] . Marcelo A. Trindade, Ayech Benjeddou Journal of vibration and control: JVC . 2002,第6期

机译：使用粘弹性和压电材料的混合主动-被动阻尼处理：回顾和评估
4. HYBRID PIEZOELECTRIC/VISCOELASTIC DAMPING TREATMENT USING A FRACTIONAL DERIVATIVE MODEL [C] . Ana Cristina Galucio, Jean-Francois Deue, Roger Ohayon International Conference on Adaptive Structures and Technologies . 2004

机译：使用分数衍生模型的混合压电/粘弹性阻尼处理
5. ANSYS and analytical modeling of elastic-viscoelastic-elastic sandwich beams. [D] . Kumar, Bhim. 2009

机译：ANSYS和弹-粘弹-弹-夹层梁的分析模型。
6. A Finite Element Model for the Vibration Analysis of Sandwich Beam with Frequency-Dependent Viscoelastic Material Core [O] . Zhicheng Huang, Xingguo Wang, Nanxing Wu, 2019

机译：频率依赖性粘弹性材料夹芯梁振动分析的有限元模型
7. Vibration control of beams and plates with hybrid active-passive constrained layer damp-ing treatments [O] . Koh Byungjun, Rustighi Emiliano, Waters Timothy, 2016

机译：混合主动 - 被动约束层阻尼处理的梁板振动控制
8. Quadratic Optimal Control Theory for Viscoelastically Damped Structures Using a Fractional Derivative Viscoelasticity Model [R] . Walker, R. N. 1988

机译：用分数导数粘弹性模型研究粘弹性阻尼结构的二次最优控制理论

A Fractional Dervative Viscoelastic Model for Hybrid Active-Passive Damping Treatments in Time Domain-Application to Sandwich Beams

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