3D Finite Element Numerical Simulation of Residual Stresses on Electron Beam Welded BT20 Plates

Abstract

Abstract: A three-dimensional finite-element model (FEM) used for calculating electron beam (EB) welding temperature and stresses fields of thin plates of BT20 titanium has been developed in which the nonlinear thermophysical and thermo-mechanical properties of the material has been considered. The welding temperature field, the distributions of residual stresses in as-welded (AW) and electron beam local post-weld heat treatment (EBLPWHT) conditions have been successfully simulated. The results show that: (1) In the weld center, the maximum magnitude of residual tensile stresses of BT20 thin plates of Ti alloy is equal to 60%~70% of its yield strength δs. (2) The residual tensile stresses in weld center can be even decreased after EBLPWHT and the longitudinal tensile stresses are decreased about 50% compared to joints in AW conditions. (3) The numerical calculating results of residual stresses by using FEM are basically in agreement with the experimental results. Combined with numerical calculating results, the effects of electron beam welding and EBLPWHT on the distribution of welding residual stresses in thin plates of BT20 have been analyzed in detail.

Key words: Electron beam local heat treatment, Electron beam welding, Titanium alloy, Finite element method

Lixing HUO, Furong CHEN, Yufeng ZHANG, Li ZHANG, Fangjun LIU, Gang CHEN. 3D Finite Element Numerical Simulation of Residual Stresses on Electron Beam Welded BT20 Plates[J]. J Mater Sci Technol, 2004, 20(01): 117-120.

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3D Finite Element Numerical Simulation of Residual Stresses on Electron Beam Welded BT20 Plates

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