The University of Southampton
×
Filter your search:
University of Southampton Institutional Repository

Stochastic dynamic analysis of twisted functionally graded plates

Stochastic dynamic analysis of twisted functionally graded plates
Stochastic dynamic analysis of twisted functionally graded plates

This paper presents a stochastic dynamic analysis of functionally graded plates by following an efficient neural network based approach coupled with the finite element method. An isoparametric quadratic element having eight nodes is considered for the finite element analysis of pre-twisted functionally graded cantilever plates subjected to variation in geometric parameters, material properties and temperature. Both individual and compound effects of stochasticity in the uncertain input parameters are accounted to quantify their influence on the first three natural frequencies, mode shapes, and frequency response functions of functionally graded plates. A sensitivity analysis is conducted to ascertain the relative effects of various prospective sources of uncertainty. Latin hypercube sampling is utilised to train the efficient surrogate models, which are employed as a medium of uncertainty propagation. The comparative performance of artificial neural network and polynomial neural network is assessed in the stochastic dynamic analysis of the pre-twisted functionally graded plates from the viewpoint of accuracy and computational efficiency. The results are validated with respect to direct Monte Carlo simulation based on the finite element model of the functionally graded plates. It is observed that the artificial neural network based algorithm can achieve a significant level of computational efficiency without compromising the accuracy of results. The results presented in this article reveal that the source uncertainties of functionally graded plates have a significant effect on the dynamic responses of the structure.

Artificial neural network, Finite element method, Polynomial neural network, Sensitivity analysis, Stochastic dynamics, Twisted functionally graded plate
1359-8368
259-278
Karsh, P. K.
b039f77d-f480-4493-b2a9-325b04e3cbaf
Mukhopadhyay, T.
2ae18ab0-7477-40ac-ae22-76face7be475
Dey, S.
f80973e6-72b4-451a-b0f1-73c0997b6b27
Karsh, P. K.
b039f77d-f480-4493-b2a9-325b04e3cbaf
Mukhopadhyay, T.
2ae18ab0-7477-40ac-ae22-76face7be475
Dey, S.
f80973e6-72b4-451a-b0f1-73c0997b6b27

Karsh, P. K., Mukhopadhyay, T. and Dey, S. (2018) Stochastic dynamic analysis of twisted functionally graded plates. Composites Part B: Engineering, 147, 259-278. (doi:10.1016/j.compositesb.2018.03.043).

Record type: Article

Abstract

This paper presents a stochastic dynamic analysis of functionally graded plates by following an efficient neural network based approach coupled with the finite element method. An isoparametric quadratic element having eight nodes is considered for the finite element analysis of pre-twisted functionally graded cantilever plates subjected to variation in geometric parameters, material properties and temperature. Both individual and compound effects of stochasticity in the uncertain input parameters are accounted to quantify their influence on the first three natural frequencies, mode shapes, and frequency response functions of functionally graded plates. A sensitivity analysis is conducted to ascertain the relative effects of various prospective sources of uncertainty. Latin hypercube sampling is utilised to train the efficient surrogate models, which are employed as a medium of uncertainty propagation. The comparative performance of artificial neural network and polynomial neural network is assessed in the stochastic dynamic analysis of the pre-twisted functionally graded plates from the viewpoint of accuracy and computational efficiency. The results are validated with respect to direct Monte Carlo simulation based on the finite element model of the functionally graded plates. It is observed that the artificial neural network based algorithm can achieve a significant level of computational efficiency without compromising the accuracy of results. The results presented in this article reveal that the source uncertainties of functionally graded plates have a significant effect on the dynamic responses of the structure.

This record has no associated files available for download.

More information

Published date: 15 August 2018
Additional Information: Funding Information: The first author would like to acknowledge the financial support received from Ministry of Human Resource and Development (MHRD), Govt. of India during the period of this research work. Publisher Copyright: © 2018 Elsevier Ltd
Keywords: Artificial neural network, Finite element method, Polynomial neural network, Sensitivity analysis, Stochastic dynamics, Twisted functionally graded plate

Identifiers

Local EPrints ID: 483557
URI: http://eprints.soton.ac.uk/id/eprint/483557
DOI: doi:10.1016/j.compositesb.2018.03.043
ISSN: 1359-8368
PURE UUID: f976d8d5-5155-446f-9b7d-1bbe6e991bf9
ORCID for T. Mukhopadhyay: ORCID iD orcid.org/0000-0002-0778-6515

Catalogue record

Date deposited: 01 Nov 2023 18:01
Last modified: 18 Mar 2024 04:10

Export record

Altmetrics

Contributors

Author: P. K. Karsh
Author: T. Mukhopadhyay ORCID iD
Author: S. Dey

Download statistics

Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.

View more statistics

Library staff additional information
Atom RSS 1.0 RSS 2.0

Contact ePrints Soton: eprints@soton.ac.uk

ePrints Soton supports OAI 2.0 with a base URL of http://eprints.soton.ac.uk/cgi/oai2

This repository has been built using EPrints software, developed at the University of Southampton, but available to everyone to use.

We use cookies to ensure that we give you the best experience on our website. If you continue without changing your settings, we will assume that you are happy to receive cookies on the University of Southampton website.

×