Add to ORKGIn this study, a simple 1D finite element model was developed to predict the temperature evolution and post-fire mechanical degradation of glass fiber reinforced polymers (FRPs) subjected to constant heat fluxes, including 35 kW/m 2, 50 kW/m 2, 75 kW/m 2, and 100 kW/m 2. A temperature-dependent post-fire mechanical property model was proposed and implemented. The calculated temperature and residual mechanical moduli showed good agreement with the experimental data. By properly selecting the parameters of the model, an effective strategy was demonstrated to design FRP structure with enhanced durability. © 2012 Elsevier Ltd. All rights reserved
Simple-to-use models are presented in this paper for determining the residual tension, compression a...
Temperature dependence of physical and mechanical properties is considered in most thermal and mecha...
A thermal-mechanical model is presented to calculate the tensile strength and time-to-failure of gla...
In this study, a simple 1D finite element model was developed to predict the temperature evolution a...
In this study, a simple 1D finite element model was developed to predict the temperature evolution a...
Temperature-dependent material properties of glass fiber-reinforced polymer composites were derived ...
This paper reports elevated temperature mechanical property measurements on woven glass fibre/polypr...
This article is part of a series on the thermo-mechanical responses of fiber-reinforced composites a...
In the past three decades, one-dimensional (1-D) thermal model was usually used to estimate the ther...
A model for predicting composite material strength degradation under elevated and high temperatures ...
A thermo-structural model was previously developed and validated for predicting the failure of compr...
Simple-to-use models based on the rule-of-mixtures are presented for predicting the post-fire tensio...
This paper reports on changes to the mechanical properties of woven glass laminates with polyester, ...
One of the greatest impediments to using fibre reinforced polymer (FRP) composites in buildings and ...
The goal of this work is to predict the mechanical behavior of FRP composite sandwich structures in ...
Simple-to-use models are presented in this paper for determining the residual tension, compression a...
Temperature dependence of physical and mechanical properties is considered in most thermal and mecha...
A thermal-mechanical model is presented to calculate the tensile strength and time-to-failure of gla...
In this study, a simple 1D finite element model was developed to predict the temperature evolution a...
In this study, a simple 1D finite element model was developed to predict the temperature evolution a...
Temperature-dependent material properties of glass fiber-reinforced polymer composites were derived ...
This paper reports elevated temperature mechanical property measurements on woven glass fibre/polypr...
This article is part of a series on the thermo-mechanical responses of fiber-reinforced composites a...
In the past three decades, one-dimensional (1-D) thermal model was usually used to estimate the ther...
A model for predicting composite material strength degradation under elevated and high temperatures ...
A thermo-structural model was previously developed and validated for predicting the failure of compr...
Simple-to-use models based on the rule-of-mixtures are presented for predicting the post-fire tensio...
This paper reports on changes to the mechanical properties of woven glass laminates with polyester, ...
One of the greatest impediments to using fibre reinforced polymer (FRP) composites in buildings and ...
The goal of this work is to predict the mechanical behavior of FRP composite sandwich structures in ...
Simple-to-use models are presented in this paper for determining the residual tension, compression a...
Temperature dependence of physical and mechanical properties is considered in most thermal and mecha...
A thermal-mechanical model is presented to calculate the tensile strength and time-to-failure of gla...