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The impact force identification of composite stiffened panels under material uncertainty

The impact force identification of composite stiffened panels under material uncertainty
The impact force identification of composite stiffened panels under material uncertainty
This paper presents a synthesis approach to address the problem of uncertainty in the impact force identification. The effects of material uncertainty on dynamic responses of the structure are studied by using Monte Carlo simulation. Six parameters, including mechanical properties and thermal coefficients, are considered as independent random variables. A parametric study is conducted to select four parameters as the optimization variables in the following step of model updating. The technique of model updating is used to correct the modeling errors caused by material uncertainty. Then, an improved inverse analysis technique based on the finite element method and mode superposition method is taken for impact force identification. In this study, the present method is performed on a composite stiffened panel, and the effect of noise on the performance of identification is also discussed. The results of the study show that the developed approach is capable of identifying the impact location and reconstructing the force history accurately by reducing material uncertainty through the modal updating procedure. © 2013 Elsevier B.V.
Impact identification, Inverse analysis method, Material uncertainty, Model updating, Noise effect, Parametric study
0168-874X
38-47
Sun, Rujie
e3dad16d-6c79-4972-8378-edca28a3babd
Chen, Guoping
06dd2050-e5a4-408f-9f2c-b3df692e858c
He, Huan
33f4ae85-f254-4f60-9222-9689e1536f43
Zhang, Baoqiang
c2622954-ba57-40c7-8b34-fde8144fdc6d
Sun, Rujie
e3dad16d-6c79-4972-8378-edca28a3babd
Chen, Guoping
06dd2050-e5a4-408f-9f2c-b3df692e858c
He, Huan
33f4ae85-f254-4f60-9222-9689e1536f43
Zhang, Baoqiang
c2622954-ba57-40c7-8b34-fde8144fdc6d

Sun, Rujie, Chen, Guoping, He, Huan and Zhang, Baoqiang (2014) The impact force identification of composite stiffened panels under material uncertainty. Finite Elements in Analysis and Design, 81, 38-47. (doi:10.1016/j.finel.2013.11.008).

Record type: Article

Abstract

This paper presents a synthesis approach to address the problem of uncertainty in the impact force identification. The effects of material uncertainty on dynamic responses of the structure are studied by using Monte Carlo simulation. Six parameters, including mechanical properties and thermal coefficients, are considered as independent random variables. A parametric study is conducted to select four parameters as the optimization variables in the following step of model updating. The technique of model updating is used to correct the modeling errors caused by material uncertainty. Then, an improved inverse analysis technique based on the finite element method and mode superposition method is taken for impact force identification. In this study, the present method is performed on a composite stiffened panel, and the effect of noise on the performance of identification is also discussed. The results of the study show that the developed approach is capable of identifying the impact location and reconstructing the force history accurately by reducing material uncertainty through the modal updating procedure. © 2013 Elsevier B.V.

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More information

Accepted/In Press date: 25 November 2013
e-pub ahead of print date: 14 December 2013
Published date: April 2014
Keywords: Impact identification, Inverse analysis method, Material uncertainty, Model updating, Noise effect, Parametric study

Identifiers

Local EPrints ID: 486766
URI: http://eprints.soton.ac.uk/id/eprint/486766
ISSN: 0168-874X
PURE UUID: 4ea9ba08-faaa-4c91-8b8e-60e38bcdd367

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Date deposited: 06 Feb 2024 17:32
Last modified: 17 Mar 2024 07:24

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Contributors

Author: Rujie Sun
Author: Guoping Chen
Author: Huan He
Author: Baoqiang Zhang

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