Transient hygrothermal stresses induced in general plane problems by theory of coupled heat and moisture

Tei Chen Chen; Cheng I. Weng; Win Jin Chang

doi:10.1115/1.2899474

Transient hygrothermal stresses induced in general plane problems by theory of coupled heat and moisture

Tei Chen Chen, Cheng I. Weng, Win Jin Chang

Department of Mechanical Engineering

Research output: Contribution to journal › Article › peer-review

8 Citations (Scopus)

Abstract

A general finite element model is proposed to deal with the transient, hygrothermal stress problems by the linear theory of coupled heat and moisture that is required in the analysis of some porous and composite materials. The method consists of formulating and solving the problem in the Laplace transform domain by the finite element method and then numerically inverting the transformed solution to obtain the time domain response. Therefore, the transient solutions at any time could be evaluated directly. A number of examples are presented which demonstrate the accuracy, efficiency, and versatility of the proposed method. It can be found from the numerical results that the coupling effect between thermal and moisture is significant for composite material T300/5208. The maximum discrepancy between coupled and uncoupled solutions might be as high as 50 percent.

Original language	English
Pages (from-to)	S10-S16
Journal	Journal of Applied Mechanics, Transactions ASME
Volume	59
Issue number	2
DOIs	https://doi.org/10.1115/1.2899474
Publication status	Published - 1992 Jun

All Science Journal Classification (ASJC) codes

Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering

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abstract = "A general finite element model is proposed to deal with the transient, hygrothermal stress problems by the linear theory of coupled heat and moisture that is required in the analysis of some porous and composite materials. The method consists of formulating and solving the problem in the Laplace transform domain by the finite element method and then numerically inverting the transformed solution to obtain the time domain response. Therefore, the transient solutions at any time could be evaluated directly. A number of examples are presented which demonstrate the accuracy, efficiency, and versatility of the proposed method. It can be found from the numerical results that the coupling effect between thermal and moisture is significant for composite material T300/5208. The maximum discrepancy between coupled and uncoupled solutions might be as high as 50 percent.",

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AU - Chen, Tei Chen

AU - Weng, Cheng I.

AU - Chang, Win Jin

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N2 - A general finite element model is proposed to deal with the transient, hygrothermal stress problems by the linear theory of coupled heat and moisture that is required in the analysis of some porous and composite materials. The method consists of formulating and solving the problem in the Laplace transform domain by the finite element method and then numerically inverting the transformed solution to obtain the time domain response. Therefore, the transient solutions at any time could be evaluated directly. A number of examples are presented which demonstrate the accuracy, efficiency, and versatility of the proposed method. It can be found from the numerical results that the coupling effect between thermal and moisture is significant for composite material T300/5208. The maximum discrepancy between coupled and uncoupled solutions might be as high as 50 percent.

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Transient hygrothermal stresses induced in general plane problems by theory of coupled heat and moisture

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