Publication details

Weld Joints Simulations of Heat-resistant Steels

Authors

SOPOUŠEK Jiří FORET Rudolf

Year of publication 2004
Type Article in Proceedings
Conference CALPHAD XXXIII
MU Faculty or unit

Faculty of Science

Citation
Field Physical chemistry and theoretical chemistry
Keywords diffusion; couple; DICTRA; ThermoCalc; Equilibrium; Activity
Description Knowledge of microstructure stabilities is essential for reliable estimations of the lifetime limitations of materials and welded joints at higher temperatures. This information may be deduced from material phase diagrams and from heterogeneous weld joint simulations. The phase diagrams can be calculated using CALPHAD method [1]. This method complemented with appropriate diffusion approach [2], [3] can help us to simulate phase and element profile evolutions inside diffusion-affected zone of weld joint too. The heat-resistant steels (alloying base: Cr, Ni, Mo, V, C, N) and their weld joints are objects of our study. Thermodynamic database STEEL [4] and kinetic database DIF mentioned in [5] are used. The particullar results of the equilibrium calculations are presented as the phase diagram cross-sections of the selected heat-resistance steels. The same equilibrium calculations offer element activities too. The carbon activity temperature dependences were calculated for individual steels. The observed difference between the carbon activities of two different steels (at given temperature) enabled us to predict diffusion flow direction, which can be opposite then deduced from the carbon content in some steel combinations (carbon up-hill diffusion). The simulations respect the coexistence of different carbide phases in the materials and they are conducted on the assumption that under the examined conditions the local phase equilibrium holds and that diffusion is the control process of phase transformation. The phase diagram calculations and diffusion couple simulations involving time-distance dependences for phase and element redistributions in diffusion-affected zones enabled us to obtain a basic information, which allow to estimate thermodynamic and diffusion stabilities of the studied heat-resistant steels and their weld joints.

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