Polymer Composites, Volume (42), No (10), Year (2021-10) , Pages (5607-5623)

Title : ( Failure analysis of fiberglass‐vinyl ester composite cylinders subjected to fire and asymmetric transient pressure )

Authors: Ehsan Selahi , Ali Reza Setoodeh , Masoud Tahani ,

Citation: BibTeX | EndNote

Abstract

A hybrid numerical method is developed for failure prediction of glass fiber reinforced vinyl ester (GRV) composite cylinders subjected to fire and asymmetric transient pressure. The method is composed of layerwise theory, differential quadrature method, Fourier series expansion, and Newmark\\\'s time integration method. To achieve high-accuracy solution, the char formation, resin decomposition, volatile convection, and temperature-dependent material properties are considered. By comparing the developed results with the experimental and numerical results presented in the available literatures, the precision of this method is confirmed. The results reveal that although the polymeric composites are flammable, they are also strong thermal insulators compared to conventional metals, which reduces the flame spread rate from one section to another.

Keywords

, asymmetric transient pressure, failure analysis, fire, hybrid numerical method, polymer composite cylinder, resin decomposition
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@article{paperid:1086966,
author = {Ehsan Selahi and Ali Reza Setoodeh and Tahani, Masoud},
title = {Failure analysis of fiberglass‐vinyl ester composite cylinders subjected to fire and asymmetric transient pressure},
journal = {Polymer Composites},
year = {2021},
volume = {42},
number = {10},
month = {October},
issn = {0272-8397},
pages = {5607--5623},
numpages = {16},
keywords = {asymmetric transient pressure; failure analysis; fire; hybrid numerical method; polymer composite cylinder; resin decomposition},
}

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%0 Journal Article
%T Failure analysis of fiberglass‐vinyl ester composite cylinders subjected to fire and asymmetric transient pressure
%A Ehsan Selahi
%A Ali Reza Setoodeh
%A Tahani, Masoud
%J Polymer Composites
%@ 0272-8397
%D 2021

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