1997
DOI: 10.1007/s11665-997-0032-1
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Development and implementation of cae system “hearts” for heat treatment simulation based on metallo-thermo-mechanics

Abstract: Based on the framework of "metallo-thermo-mechanics" proposed by the authors, a CAE system, "HEARTS" (HEAt tReaTment Simulation system), has been developed to simulate metallic structure, temperature, and stress]strain in the heat treatment processes associated with phase transformation, such as quenching and tempering by means of the finite element method. In the first part of the paper, the governing theory is introduced; fundamental equations of metallurgical change due to phase transformation, heat conduct… Show more

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Cited by 69 publications
(12 citation statements)
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“…With the development of computer numerical simulation technology, some numerical models [16,17] have been gradually established in the quenching process, which provides theoretical guidance for heat treatment. Although Li et al [18] established the numerical model of microstructure evolution by using the finite element method (FEM) based on the metal-thermal-mechanical coupling theory.…”
Section: Finite Element Model Of Phase Transitionmentioning
confidence: 99%
“…With the development of computer numerical simulation technology, some numerical models [16,17] have been gradually established in the quenching process, which provides theoretical guidance for heat treatment. Although Li et al [18] established the numerical model of microstructure evolution by using the finite element method (FEM) based on the metal-thermal-mechanical coupling theory.…”
Section: Finite Element Model Of Phase Transitionmentioning
confidence: 99%
“…Computer simulation of quenching processes [28][29][30][31] require solving inverse problem [32][33][34][35][36][37][38] on the basis of testing probes with thermocouples instrumented on the surface of probe or close to surface.…”
Section: Discussionmentioning
confidence: 99%
“…Two software packages were used, namely, Abaqus ® and AC3 ® , to model the following important coupled phenomena: (a) the heat transfer within the bar and between the bar and the quenching water; (b) the microstructure evolution from austenite; (c) the thermal strain originated from temperature variations; (d) the elastic strain; (e) the strain caused by phase transformations; and (f) the plastic strain. Although Inoue and Arimoto, 20) Inoue et al, 21,22) and Denis 23) emphasized the importance of transformation plasticity to the formation of residual stresses during quenching of steels, this effect was not included in the present model as a first approximation towards the development of a more elaborate model. The AC3 ® software was used to calculate the evolution of the fraction of all microconstituents in any point inside the cylinder as a function of time for the cooling conditions observed in the experiments described in section 3.…”
Section: Mathematical Modeling and Simulationsmentioning
confidence: 97%