Inverse heat conduction analysis of quenching process using finite-element and optimization method

Gu, 1998, Inverse heat conduction analysis of synthetical surface heat transfer coefficient during quenching process, J. Shanghai Jiaotong Univ., 32, 18 Park, 1999, On the solution of inverse heat transfer problem using the Karhunen–Loeve Galerkin method, Heat Mass Transfer, 42, 127, 10.1016/S0017-9310(98)00136-7 Osman, 1990, Investigation of transient heat transfer coefficients in quenching experiments, Heat Transfer, 112, 843, 10.1115/1.2910490 Naylor, 1993, Evaluation of an inverse heat conduction procedure for determining local convective heat transfer rates, 125 Taler, 1999, Solution of inverse heat conduction problems using control volume approach, Heat Mass Transfer, 42, 1123, 10.1016/S0017-9310(98)00280-4 Hernandez-Morales, 1995, Characterization of the boundary condition in heat treatment operations using an inverse heat conduction algorithm, 559 Chantasiriwan, 2000, Inverse determination of steady–state heat transfer coefficient, Heat Mass Transfer, 27, 1155, 10.1016/S0735-1933(00)00202-5 Gu, 1998, Computer measurement and calculation on heat transfer coefficients of quenchants, Hot Working Technol., 5, 13 Cheng, 1997, Study on heat transfer condition between workpiece/medium boundary during quenching process, J. North China Inst. Technol., 18, 104 Chen, 2002, Measurement and calculation of the heat transfer coefficient of dynamic quenchant, Hot Working Technol., 3, 6 Cheng, 1997, Solution of heat conduction inverse problem for steel 45 during quenching, Acta Metall. Sin, 33, 467 Kong, 1998 Denis, 1987, Coupled temperature, stress, phase transformation calculation, model numerical illustration of the internal stresses evolution during cooling of a eutectoid carbon steel cylinder, Metall. Trans. A, 18A, 1203, 10.1007/BF02647190 Wang, 1997, Experimental and computational study of the quenching of carbon steel, J. Manuf. Sci. Eng., 119, 257, 10.1115/1.2831102 Buchmayr, 1990, Modeling of the temperature field, transformation behavior, hardness and mechanical response of low alloy steels during cooling from the austenite region, Heat Treat., 8, 127, 10.1007/BF02831633 Johnson, 1939, Reaction kinetics in processes of nucleation and growth, Trans. AIME, 135, 416 Fernandes, 1984, Mathematical model coupling phase transformation and temperature evolution during quenching of steels, Mater. Sci. Technol., 1, 838, 10.1179/mst.1985.1.10.838 D. Pont, J.M. Bergheau, M. Rochette, R. Fortunier, Identification of kinetic model for anisothermal metallurgical transformations in steels, in: Proceedings of the 1994 Second International Symposium on Inverse Problems-ISIP’94, France, 1994, pp. 151–156. Koistinen, 1959, General equation prescribing the extent of the austensite transformation in pure iron-carbon alloys and plain carbon steels, Acta Metall., 7, 50, 10.1016/0001-6160(59)90170-1 Xue, 2001 Hakan, 1996, Effect of boundary conditions and workpiece geometry on residual stresses and microstructure in quenching process, Mater. Technol., 67, 501