Analysis of transformation plasticity in steel using a finite element method coupled with a phase field model.

PloS One
Yi-Gil ChoHeung Nam Han

Abstract

An implicit finite element model was developed to analyze the deformation behavior of low carbon steel during phase transformation. The finite element model was coupled hierarchically with a phase field model that could simulate the kinetics and micro-structural evolution during the austenite-to-ferrite transformation of low carbon steel. Thermo-elastic-plastic constitutive equations for each phase were adopted to confirm the transformation plasticity due to the weaker phase yielding that was proposed by Greenwood and Johnson. From the simulations under various possible plastic properties of each phase, a more quantitative understanding of the origin of transformation plasticity was attempted by a comparison with the experimental observation.

References

Apr 24, 2002·Physical Review. E, Statistical Physics, Plasmas, Fluids, and Related Interdisciplinary Topics·S G KimT Suzuki

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Methods Mentioned

BETA
optical microscopy

Software Mentioned

ABAQUS
PFM
THERMEC MASTER Z
UMAT

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