论文信息 - Computational thermodynamics in electric current metallurgy

Computational thermodynamics in electric current metallurgy

Abstract A priori derivation for the extra free energy caused by the passing electric current in metal is presented. The analytical expression and its discrete format in support of the numerical calculation of thermodynamics in electric current metallurgy have been developed. This enables the calculation of electric current distribution, current induced temperature distribution and free energy sequence of various phase transitions in multiphase materials. The work is particularly suitable for the study of magnetic materials that contain various magnetic phases. The latter has not been considered in literature. The method has been validated against the analytical solution of current distribution and experimental observation of microstructure evolution. It provides a basis for the design, prediction and implementation of the electric current metallurgy. The applicability of the theory is discussed in the derivations.

Rongshan Qin | A. Bhowmik | A. Bhowmik | R. Qin

[1] Rongshan Qin,et al. Electropulse-induced cementite nanoparticle formation in deformed pearlitic steels , 2011 .

[2] R. Qin. Critical Assessment 8: Outstanding issues in electropulsing processing , 2015 .

[3] O. Redlich,et al. Algebraic Representation of Thermodynamic Properties and the Classification of Solutions , 1948 .

[4] Thermodynamics of crack healing under electropulsing , 2002 .

[5] R. Qin. Outstanding issues in electropulsing processing , 2015 .

[6] J. D. Eshelby. The determination of the elastic field of an ellipsoidal inclusion, and related problems , 1957, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.

[7] A. Kolin,et al. Theory of Electromagnetophoresis. I. Magnetohydrodynamic Forces Experienced by Spherical and Symmetrically Oriented Cylindrical Particles , 1954 .

[8] Hugh Shercliff,et al. Overview No. 124 Modelling of precipitation reactions in industrial processing , 1997 .

[9] Rongshan Qin,et al. Surface energy and its anisotropy of hexagonal close-packed metals , 2014 .

[10] P. Guyot,et al. Precipitation kinetics, mechanical strength and electrical conductivity of AlZnMgCu alloys , 1996 .

[11] Elperin,et al. Thermodynamics of nucleation in current-carrying conductors. , 1994, Physical review. B, Condensed matter.