A Modified Johnson–Cook Model to Predict Stress-strain Curves of Boron Steel Sheets at Elevated and Cooling Temperatures

In order to predict correctly stress-strain curve for tensile tests at elevated and cooling temperatures, a modification of a Johnson–Cook (J-C) model and a new method to determine (J-C) material parameters are proposed. A MATLAB tool is used to determine material parameters by fitting a curve to fo...

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Bibliographic Details
Published in:High temperature materials and processes 2012-02, Vol.31 (1), p.37-45
Main Authors: Duc-Toan, Nguyen, Tien-Long, Banh, Dong-Won, Jung, Seung-Han, Yang, Young-Suk, Kim
Format: Article
Language:English
Subjects:
boron steel
Computer simulation
cooling
Elevated
Finite element method (FEM)
Hardening
High temperature
Mathematical models
Matlab
Stress strain curves
tensile test
Tensile tests
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Summary:In order to predict correctly stress-strain curve for tensile tests at elevated and cooling temperatures, a modification of a Johnson–Cook (J-C) model and a new method to determine (J-C) material parameters are proposed. A MATLAB tool is used to determine material parameters by fitting a curve to follow Ludwick and Voce's hardening law at various elevated temperatures. Those hardening law parameters are then utilized to determine modified (J-C) model material parameters. The modified (J-C) model shows the better prediction compared to the conventional one. An FEM tensile test simulation based on the isotropic hardening model for metal sheet at elevated temperatures was carried out via a user-material subroutine, using an explicit finite element code. The simulation results at elevated temperatures were firstly presented and then compared with the measurements. The temperature decrease of all elements due to the air cooling process was then calculated when considering the modified (J-C) model and coded to VUMAT subroutine for tensile test simulation. The modified (J-C) model showed the good comparability between the simulation results and the corresponding experiments.
ISSN:0334-6455
2191-0324
DOI:10.1515/htmp.2011.127