Validation of Advanced Composite Thermal Stress Analysis Methods

J. G. Crose; N. J. Pagano; R. L. Holman

Source: Journal of Engineering Materials and Technology:;1987:;volume( 109 ):;issue: 001::page 40

Author:

J. G. Crose

N. J. Pagano

R. L. Holman

DOI: 10.1115/1.3225931

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: The thermal stress analysis of thermally degrading tape wound phenolic composites in rocket nozzles is complicated by the extreme variation of properties with temperature, combined with steep temperature gradients on the order of 50,000° F/in. This study applied two very different numerical approaches to the same problem of predicting thermal stresses in a moderately thick conical frustum. One method uses a variational theorem derived by Reissner while the other applies the classical finite element method based on minimization of the total potential energy. The good agreement of the two methods appears to validate the results and an extensive convergence study is presented that identifies the magnitude of errors in the finite element method as a function of element density. A modification to the finite element method to account for intra-element material property variation is shown to improve the convergence of the procedure.

keyword(s): Composite materials , Thermal stresses , Finite element methods , Materials properties , Nozzles , Errors , Rockets , Temperature gradients , Potential energy , Theorems (Mathematics) , Density AND Temperature ,

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Validation of Advanced Composite Thermal Stress Analysis Methods

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contributor author	J. G. Crose
contributor author	N. J. Pagano
contributor author	R. L. Holman
date accessioned	2017-05-08T23:24:55Z
date available	2017-05-08T23:24:55Z
date copyright	January, 1987
date issued	1987
identifier issn	0094-4289
identifier other	JEMTA8-26913#40_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/102544
description abstract	The thermal stress analysis of thermally degrading tape wound phenolic composites in rocket nozzles is complicated by the extreme variation of properties with temperature, combined with steep temperature gradients on the order of 50,000° F/in. This study applied two very different numerical approaches to the same problem of predicting thermal stresses in a moderately thick conical frustum. One method uses a variational theorem derived by Reissner while the other applies the classical finite element method based on minimization of the total potential energy. The good agreement of the two methods appears to validate the results and an extensive convergence study is presented that identifies the magnitude of errors in the finite element method as a function of element density. A modification to the finite element method to account for intra-element material property variation is shown to improve the convergence of the procedure.
publisher	The American Society of Mechanical Engineers (ASME)
title	Validation of Advanced Composite Thermal Stress Analysis Methods
type	Journal Paper
journal volume	109
journal issue	1
journal title	Journal of Engineering Materials and Technology
identifier doi	10.1115/1.3225931
journal fristpage	40
journal lastpage	46
identifier eissn	1528-8889
keywords	Composite materials
keywords	Thermal stresses
keywords	Finite element methods
keywords	Materials properties
keywords	Nozzles
keywords	Errors
keywords	Rockets
keywords	Temperature gradients
keywords	Potential energy
keywords	Theorems (Mathematics)
keywords	Density AND Temperature
tree	Journal of Engineering Materials and Technology:;1987:;volume( 109 ):;issue: 001
contenttype	Fulltext

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