Predicting compression failure of composite laminates in fire

A thermo-structural model was developed and validated to predict the failure of compressively loaded fiber-reinforced polymer (FRP) laminates during one-sided heating from a fire. The model consists of a one-dimensional pyrolysis model to predict the thermal response of a decomposing material and an...

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Vydáno v:	Composites. Part A, Applied science and manufacturing Ročník 43; číslo 5; s. 773 - 782
Hlavní autoři:	Summers, P.T., Lattimer, B.Y., Case, S., Feih, S.
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	Elsevier Ltd 01.05.2012
Témata:	A. Polymer–matrix composites (PMCs) C. Analytical modeling C. Computational modeling equations Fire heat transfer modulus of elasticity polymers prediction pyrolysis temperature testing A. Polymer–matrix composites (PMCs) C. Analytical modeling C. Computational modeling Fire
ISSN:	1359-835X, 1878-5840
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Abstract	A thermo-structural model was developed and validated to predict the failure of compressively loaded fiber-reinforced polymer (FRP) laminates during one-sided heating from a fire. The model consists of a one-dimensional pyrolysis model to predict the thermal response of a decomposing material and an integral structural model based on the bending equation. The thermo-structural model predicts temperatures, out-of-plane deflections, and compressive failure of laminates exposed to fire conditions. Model results were validated with intermediate-scale compression load failure tests with a one-sided heat flux exposure. Through a sensitivity analysis of the model predictions to input parameters, the residual elastic modulus was determined to be of utmost importance to both prediction of out-of-plane deflection and time-to-failure.
AbstractList	A thermo-structural model was developed and validated to predict the failure of compressively loaded fiber-reinforced polymer (FRP) laminates during one-sided heating from a fire. The model consists of a one-dimensional pyrolysis model to predict the thermal response of a decomposing material and an integral structural model based on the bending equation. The thermo-structural model predicts temperatures, out-of-plane deflections, and compressive failure of laminates exposed to fire conditions. Model results were validated with intermediate-scale compression load failure tests with a one-sided heat flux exposure. Through a sensitivity analysis of the model predictions to input parameters, the residual elastic modulus was determined to be of utmost importance to both prediction of out-of-plane deflection and time-to-failure.
Author	Summers, P.T. Lattimer, B.Y. Case, S. Feih, S.
Author_xml	– sequence: 1 givenname: P.T. surname: Summers fullname: Summers, P.T. email: psummrs@vt.edu organization: Department of Mechanical Engineering, Virginia Tech, Blacksburg, VA 24061, USA – sequence: 2 givenname: B.Y. surname: Lattimer fullname: Lattimer, B.Y. organization: Department of Mechanical Engineering, Virginia Tech, Blacksburg, VA 24061, USA – sequence: 3 givenname: S. surname: Case fullname: Case, S. organization: Department of Engineering Science & Mechanics, Virginia Tech, Blacksburg, VA 24061, USA – sequence: 4 givenname: S. surname: Feih fullname: Feih, S. organization: School of Aerospace, Mechanical & Manufacturing Engineering, RMIT University, Australia
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Title	Predicting compression failure of composite laminates in fire
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