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Transient heat conduction analysis in functionally graded materials by the meshless local boundary integral equation method |
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| Authors: | J. Sladek V. Sladek Ch. Zhang |
| Affiliation: | a Institute of Construction and Architecture, Slovak Academy of Sciences, 84220, Bratislava, Slovakia b Department of Civil Engineering, University of Applied Sciences Zittau/Görlitz, D-02763, Zittau, Germany |
| Abstract: | Advanced computational method for transient heat conduction analysis in continuously nonhomogeneous functionally graded materials (FGM) is proposed. The method is based on the local boundary integral equations with moving least square approximation of the temperature and heat flux. The initial-boundary value problem is solved by the Laplace transform technique. Both Papoulis and Stehfest algorithms are applied for the numerical Laplace inversion to obtain the time-dependent solutions. Numerical results are presented for a finite strip and a hollow cylinder with an exponential spatial variation of material parameters. |
| Keywords: | Transient heat conduction analysis Local boundary integral equations Functionally graded materials (FGM) Laplace transform MLS approximation |
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