Variability analysis of vibrational responses in a passenger car considering the uncertainties of elastomers

Kwon, Jong-Hyun; Lee, Dooho

doi:10.1177/0954406215612816

Cited by 5 publications

(3 citation statements)

References 39 publications

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“…Among them, thermo-oxidative aging is a dominant factor in the degradation of mechanical properties in elastomers. The dynamic characteristics of elastomers are also heavily dependent upon frequency and operational temperature (Jung et al 2011;Kwon and Lee 2015;Lee and Hwang 2011;Lee et al 2016). In this paper, a variability analysis procedure for the thermal oxidative aging for elastomers is described.…”

Section: Electronic Submissionmentioning

confidence: 99%

Predictive Model of an Elastomer for Dynamic Properties under Thermal Environment

Lee

2017

PHMAP_CONF

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In this paper, the variability of dynamic stiffness in an elastomer due to thermal aging is estimated using a degradation model and uncertainty quantification method. A degradation model introduced for the thermal aging also describes the variation of the material properties along time.A finite element model describes the dynamic characteristics of the elastomer. The variability of the predicted degradation under the quantified uncertainties is estimated using the double-loop eigenvector dimension reduction (EDR) method. The proposed method is applied to a mount as a numerical example.

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Section: Electronic Submissionmentioning

confidence: 99%

Predictive Model of an Elastomer for Dynamic Properties under Thermal Environment

Lee

2017

PHMAP_CONF

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“…For example, Resh 14 investigated the uncertainty in the dynamic properties of engine mounts while Donders et al 15 used a Monte Carlo simulation to study the variation in the natural frequencies of an automotive vehicle body-in-white arising from the uncertainty in the spot welds 1 characteristics. The variability in the natural frequencies of a car windscreen due to temperature is studied by Scigliano et al 16 More recently, Kwon and Lee 17 modelled the uncertainty in the elastomeric joints and used the eigenvector dimension reduction method in order to obtain the variability in the dynamic response of the vehicle. They showed that the acceleration on the seat track can vary up to 6 dB due to the uncertainty in the sub-frame elastomer mounts.…”

Section: Introductionmentioning

confidence: 99%

“…The variability in the natural frequencies of a car windscreen due to temperature is studied by Scigliano et al. 16 More recently, Kwon and Lee 17 modelled the uncertainty in the elastomeric joints and used the eigenvector dimension reduction method in order to obtain the variability in the dynamic response of the vehicle. They showed that the acceleration on the seat track can vary up to 6 dB due to the uncertainty in the sub-frame elastomer mounts.…”

Section: Introductionmentioning

confidence: 99%

The uncertainty in stiffness and damping of an automotive vehicle’s trim-structure mounts and its effect on the variability of the vibration transfer function

Abolfathi

O'Boy

Walsh

et al. 2017

Proceedings of the Institution of Mechanical Engineers, Part C:

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A large number of plastic clips are used in an automotive vehicle to connect the trim to the structure. These are small clips with very small masses compared to the structural elements that they connect together; however, the uncertainty in their properties can affect the dynamic response. The uncertainty arises out of their material and manufacturing tolerances and more importantly the boundary conditions. A test rig has been developed that can model the mounting condition of the clips. This allows measurement of the range of their effective stiffness and damping. Initially, the boundary condition at the structure side is replicated. The variability is found to be 7% for stiffness and 8% for damping. In order to simulate the connection of the trim side, a mount is built using a 3D printer. The variability due to the boundary condition on both sides was as large as 40% for stiffness and 36% for damping. A Monte Carlo simulation is used in order to assess the effect of the uncertainty of the clips’ properties on the vibration transfer functions of a door assembly. A simplified connection model is used in this study where only the axial degree of freedom is considered in connecting the trim to the door structure. The uncertainty in the clip stiffness and damping results in a variability in the vibration transfer function which is frequency dependent and can be as high as 10% at the resonant peaks with higher values at some other frequencies. It is shown that the effect of the uncertainty in the clips effective damping is negligible and the variability in the dynamic response is mainly due to the uncertainty in the clip’s stiffness. Furthermore, it is shown that the variability would reduce either by increasing or decreasing the effective stiffness of the clips.

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Validation and updating in a large automotive vibro-acoustic model using a P-box in the frequency domain

Lee

Kim

2016

Struct Multidisc Optim

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Variability analysis of vibrational responses in a passenger car considering the uncertainties of elastomers

Cited by 5 publications

References 39 publications

Predictive Model of an Elastomer for Dynamic Properties under Thermal Environment

Predictive Model of an Elastomer for Dynamic Properties under Thermal Environment

The uncertainty in stiffness and damping of an automotive vehicle’s trim-structure mounts and its effect on the variability of the vibration transfer function

Validation and updating in a large automotive vibro-acoustic model using a P-box in the frequency domain

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