A novel method for the identification of a model for the nonlinear characteristic of a bolted lap-joint

Naraghi, Tahereh; Nobari, A.S.

doi:10.1177/1077546315581238

Cited by 5 publications

(2 citation statements)

References 16 publications

(19 reference statements)

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“…There are various identification methods introduced in the literature for modelling the dynamic behaviour of jointed structures [13][14][15][16][17]. Ahmadian and Jalali [13] suggested modelling the dynamics of bolted lap-joints by introducing a nonlinear generic element formulation.…”

Section: Introductionmentioning

confidence: 99%

Modelling the Effect of Preload in a Lap-Joint by Altering Thin-Layer Material Properties

Jamia

Jalali

Friswell

et al. 2021

Nonlinear Structures &Amp; Systems, Volume 1

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The joints in an assembled structure represent a significant source of energy dissipation and may lead to overall stiffness variation, which may affect high cycle fatigue failure. Many approaches have been developed to model and simulate the dynamics of bolted joint structures. However, the inherent dynamics of the contact interfaces still need further investigation in order to be able to generate accurate models to predict the behaviour in the contact interface. In this paper, the modelling of the contact interface of a bolted lap-joint and the prediction of its pressure distribution are considered using 2D and 3D FE models. A 3D finite element model with solid elements is developed to simulate the behaviour of the contact interface. The model is a modified thin-layer element where the material properties of a thin layer are distributed over the contact interface. Due to the high computational cost of the 3D model, a reduced-order model is proposed for the lap-joint in which beam elements are used. The material properties are introduced in these models to account for the variability in the contact parameters. Finally, experimental modal properties were used to identify the joint parameters. A good agreement is obtained between the detailed model and the reduced-order model in the prediction of the pressure distribution in the contact interface.

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Section: Introductionmentioning

confidence: 99%

Modelling the Effect of Preload in a Lap-Joint by Altering Thin-Layer Material Properties

Jamia

Jalali

Friswell

et al. 2021

Nonlinear Structures &Amp; Systems, Volume 1

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show abstract

“…Such thin-layer elements can be applied in two ways, i.e., for linear performance analyses [15,16] and for nonlinear characteristic analyses [17]. Satisfactory results were reported when this approach was applied to the study of different types of mechanical joints such as spot welds joints [18], bolted lap joints [19,20], and flanged joints [16]. Besides, this approach is capable of modeling the nonlinear behavior of joint interface parameters, for example, the damping ratios [21].…”

Section: Introductionmentioning

confidence: 99%

Inverse Identification of Virtual Material Parameters Using Surface Response Methodology

Cui

Hua

et al. 2018

Mathematical Problems in Engineering

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The virtual material model is now widely applied for modeling the dynamical performance of assembled structures since it can effectively represent the complicated contact behavior of joint interfaces despite being relatively simple to create. In this study, a virtual material model is adopted for modeling the dominant physics of a bolted joint subject to a set of pretightening conditions. The unknown virtual material parameters are acquired by an inverse identification procedure that uses the surface response methodology. The greatest advantage of this approach is the ease with which it acquires the joint parameters without taking apart a built-up structure to do special measurements on each separated component. Intricate theoretical calculations can also be avoided when this method is used. This study addresses the responses of virtual material parameters under different pretightening considerations. Predictions based on the identified virtual material parameters are compared with the corresponding results obtained using the analytical method. The correlation between the two sets of results at all preload levels is promising, which indicates the successful identification of the virtual material parameters.

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Vibration of bolted composite cylindrical-cylindrical flanged shells considering contact characteristics

Liu,

Sun,

Liu

et al. 2024

International Journal of Mechanical Sciences

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A novel method for the identification of a model for the nonlinear characteristic of a bolted lap-joint

Cited by 5 publications

References 16 publications

Modelling the Effect of Preload in a Lap-Joint by Altering Thin-Layer Material Properties

Modelling the Effect of Preload in a Lap-Joint by Altering Thin-Layer Material Properties

Inverse Identification of Virtual Material Parameters Using Surface Response Methodology

Vibration of bolted composite cylindrical-cylindrical flanged shells considering contact characteristics

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