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Influence of temperature on dynamic properties of plates with viscoelastic dampers

Lenartowicz Agnieszka, Przychodzki Maciej

Vibrations in Physical Systems

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2020

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Vol. 31, nr 3

art. no. 2020310

EN

The free damped vibrations of thin (Kirchhoff-Love) plates equipped with viscoelastic dampers are considered in the paper. It is assumed that the dampers are described according to the generalized rheological model. Influence of temperature on the parameters of dampers is taken into account using the frequency-temperature correspondence principle. Isotropic and rectangular plates are analysed in numerical tests included in this study. The natural frequencies and non-dimensional damping ratios are determined for these plates by solving the non-linear eigenproblem using the continuation method. The Finite Element Method is used to determine the stiffness matrix and the mass matrix occurring in the considered eigenproblem. The results of exemplary numerical calculations are presented and discussed at the end of this paper.

2

Dynamic characteristics of the structure with viscoelastic dampers combined with inerters and subjected to temperature changes

Pawlak Zdzisław M., Lewandowski Roman

Vibrations in Physical Systems

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2020

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Vol. 31, nr 2

art. no. 2020222

EN

The purpose of the work is dynamic analysis of passive dampers used in structural systems to reduce excessive vibrations caused by wind or earthquakes. Special systems are considered that contain inerter, i.e. device using rotational inertia, in combination with a viscoelastic damper. The so-called fractional models of viscoelastic dampers describe their dynamic behavior in a wide frequency range using a small number of model parameters. To describe material behavior over a wider frequency range, the time-temperature superposition principle is used. The shifting factor is calculated from the well-known William-Landel-Ferry formula. This allows for determination of damper parameters at any temperature based on the parameters obtained at the reference temperature. Laplace transformation of the derived equations of motion leads to the non-linear eigenproblem, which could be solved using the continuation method. The influence of temperature on the dynamic characteristics of the system is examined.

3

Viscoelastic Material as Energy Dissipater Viscoelastic Damper for Building Structures to Mitigate the Seismic Vibration

Sarwar Waseem

Civil and Environmental Engineering Reports

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2019

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Vol. 29, no. 2

41--49

EN

The supplemental energy dissipation system is a practical approach to attenuate the structural response under extreme loading. Viscoelastic damping used to reinforce the structure against the seismic vibration, Viscoelastic material (VEM) most commonly used in viscoelastic dampers (VEDs). In this paper, dynamic mechanical analysis (DMA) approach is used to investigate the performance index of VEM. It is demonstrated that the performance index, such as storage modulus, loss modulus, and loss factor decrease noticeably as the temperature increases, which reflects the low stiffness at high temperature. Excitation frequency also influenced the performance index, and the reaction has correspondence to temperature. As the temperature increases, the VEM dynamic properties decreases, which represents the rubbery region, and it is found that higher to low-temperature dynamic properties increases, which the glassy region is. DMA is a particularly flexible approach, and it characterizes the properties of VEM simultaneously at various conditions.

4

Approximate method for determination of dynamic characteristics of structures with viscoelastic dampers

Lewandowski R.

Vibrations in Physical Systems

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2016

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Vol. 27

219--226

EN

An approximate method for determination of dynamic characteristics of structures with viscoelastic dampers is proposed in this paper. A fractional derivative is used to describe the dynamic behaviour of viscoelastic dampers. The method is based on a continuous dependency of the sensitivity of eigenvalue on a certain artificially introduced parameter which scaled up the influence of the damping term in the eigenvalue problem. Some results of a representative calculation are also presented and briefly discussed.

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Wpływ temperatury na właściwości dynamiczne ram z lepkosprężystymi tłumikami drgań

Lewandowski R., Przychodzki M.

Czasopismo Inżynierii Lądowej, Środowiska i Architektury / Journal of Civil Engineering, Environment and Architecture

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2016

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z. 63, nr 1/I

431--438

PL

W pracy omawia się wpływ temperatury na charakterystyki dynamiczne konstrukcji z wbudowanymi lepkosprężystymi tłumikami drgań. Właściwości tłumików są opisywane uogólnionym modelem Maxwella, a parametry modelu są funkcjami temperatury panującej w tłumiku. Wykorzystuje się zasadę superpozycji czasowo-temperaturowej. Charakterystyki dynamiczne konstrukcji z tłumikami drgań wyznacza się jako rozwiązanie problemu własnego. Podano i przedyskutowano wyniki przykładowych obliczeń.

EN

In the paper an influence of temperature on dynamic properties of frames with built-in viscoelastic dampers is analyzed. Properties of dampers are described with a help of the generalized Maxwell model with parameters depending on temperature in dampers. The time-temperature superposition principle is used. Dynamic characteristics of considered systems are determined as the solution to the eigenvalue problem. Results of exemplary calculation are presented and briefly discussed.

6

Wyznaczanie charakterystyk dynamicznych ram z lepkosprężystymi tłumikami drgań

Lewandowski R., Bartkowiak A.

Zeszyty Naukowe Politechniki Rzeszowskiej. Budownictwo i Inżynieria Środowiska

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2011

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z. 58, nr 3/II

389-396

PL

W pracy omawia się metodę wyznaczania charakterystyk dynamicznych ram z wbudowanymi lepko sprężystymi tłumikami drgań. Dynamiczne zachowanie tłumików modeluje się za pomocą uogólnionego modelu reologicznego typu Kelvina. Wyznaczenie charakterystyk dynamicznych wymaga rozwiązania liniowego problemu własnego i wyrażenia równań ruchu za pomocą zmiennych stanu. Ponadto omawia się wyniki przykładowych obliczeń.

EN

The paper presents an analysis of frame structures with viscoelastic dampers mounted on them. The aim of the paper is to determine the dynamic characteristics of frame structures with dampers when the dampers are modeled by means of generalized Kelvin model. A relatively large structure with VE dampers is investigated in order to make the results of calculation more representative. The finite element method is used to derive the equations of motion of the structure with dampers and such equations are written in terms of both physical and state-space variables. The solution to motion equations in the frequency domain is given and the dynamic properties of the structure with VE dampers are determined as a solution to the appropriately defined eigenvalue problem. Several conclusions are formulated on the basis of the results of numerical analysis.

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Identification of parameters of the fractional rheological model of viscoelastic dampers

Lewandowski R., Chorążyczewski B.

Vibrations in Physical Systems

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2010

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Vol. 24

259--264

EN

An identification method for determination of parameters of the rheological model of damper made of viscoelastic material is presented in this paper. The rheological model of damper has four parameters and the model equation of motion contains derivatives of the fractional order. The identification procedure has two main parts. Results of dynamical experiments are approximated using the trigonometric function in the first part of the procedure while the model parameters are determined in the second part of the procedure as the solution to an optimization problem. The particle swarm optimization method is used to solve the optimization problem. Efficiency and accuracy of the proposed method are proof on an example where the parameters of the rheological model are determined on the basis of artificially generated experimental data with measured noises.

PL

W pracy omawia się metodę identyfikacji parametrów modelu reologicznego tłumika wykonanego z materiału o właściwościach lepkosprężystych. Model reologiczny tłumika ma cztery parametry, a równanie ruchu modelu zawiera pochodne ułamkowego rzędu. Procedura identyfikacji składa się z dwóch części. W pierwszej części aproksymuje się wyniki badań doświadczalnych za pomocą funkcji trygonometrycznych, a w drugiej części wyznacza się parametry modelu jako rozwiązanie pewnego zadania optymalizacji. Do rozwiązania zadania optymalizacji użyto metody roju cząstek. Efektywność i dokładność zaproponowanej metody identyfikacji wykazano wyznaczając parametry ułamkowego modelu reologicznego na podstawie sztucznie wygenerowanych danych doświadczalnych z szumami pomiarowymi.