Computational and Experimental Study of Temperature Distribution and Residual Stress in Butt-Joint TIG Welds

This work conducted a non-linear finite element model associated with arc efficiency to simulate the temperature distribution and residual stress. A three-dimensional finite element analysis of temperature and stress in butt-joint TIG welds was performed using commercial software ANSYS. This model i...

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Veröffentlicht in:	Key engineering materials 2011-01, Vol.480-481, p.459-465
Hauptverfasser:	Tseng, Kuang Hung, Chen, Kuan Lung
Format:	Artikel
Sprache:	eng
Schlagworte:	Accuracy Computer simulation Finite element method Mathematical analysis Mathematical models Residual stress Temperature distribution Welded joints
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container_title	Key engineering materials
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creator	Tseng, Kuang Hung Chen, Kuan Lung
description	This work conducted a non-linear finite element model associated with arc efficiency to simulate the temperature distribution and residual stress. A three-dimensional finite element analysis of temperature and stress in butt-joint TIG welds was performed using commercial software ANSYS. This model includes adjusting Gaussian distribution heat flux, alternating temperature dependent material properties, and managing thermal elasto-plastic material behavior. Computational results for both the temperature distribution and the residual stress are compared with available experimental data to confirm the accuracy of this technique. The simulated results of temperature distribution and residual stress are in good agreement with corresponding experimental data. The greatest value of this work does not lie in its ability to predict the magnitude and distribution of weld temperature and residual stress. Rather, this work proposed that prediction errors in a finite element model can be eliminated by modifying the arc power distribution function.
doi_str_mv	10.4028/www.scientific.net/KEM.480-481.459
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A three-dimensional finite element analysis of temperature and stress in butt-joint TIG welds was performed using commercial software ANSYS. This model includes adjusting Gaussian distribution heat flux, alternating temperature dependent material properties, and managing thermal elasto-plastic material behavior. Computational results for both the temperature distribution and the residual stress are compared with available experimental data to confirm the accuracy of this technique. The simulated results of temperature distribution and residual stress are in good agreement with corresponding experimental data. The greatest value of this work does not lie in its ability to predict the magnitude and distribution of weld temperature and residual stress. 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subjects	Accuracy Computer simulation Finite element method Mathematical analysis Mathematical models Residual stress Temperature distribution Welded joints
title	Computational and Experimental Study of Temperature Distribution and Residual Stress in Butt-Joint TIG Welds
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