Chong-xiang Yue scite author profile

The growth behavior of austenite grains in GCr15 steel was investigated through the isothermal annealing tests of the steel under different heating temperatures and holding times. The tests were performed on a Gleeble-3800 thermo-mechanical simulation machine. Austenitizing temperatures 1223, 1323, 1373, and 1423 K were chosen, and holding time varied from 0 to 480 s. Experimental results suggest that austenite grains grow gradually with the increase of heating temperature, and holding time has an important effect on the growth of austenite grains. The time exponent for the growth is bigger at higher temperature, and the growth rate decreases with increasing time. On the basis of previous models and experimental results, a mathematical model that can describe the growth behavior of austenite grains in the tested steel under different heating temperatures and holding times was obtained using regression analysis. The predicted grain sizes by the model are in good agreement with measured ones.

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Mathematical models for predicting the austenite grain size in hot working of GCr15 steel

Yue

Zhang

Liao

et al. 2009

Computational Materials Science

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Multi-field coupled numerical simulation of microstructure evolution during the hot rolling process of GCr15 steel rod

Gu¹,

Zhang²,

Yue³

et al. 2011

Computational Materials Science

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Hot deformation behaviors and flow stress model of GCr15 bearing steel

Liao

Zhang

Yue

et al. 2008

J. Cent. South Univ. Technol.

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The hot deformation behaviors of GCr15 bearing steel were investigated by isothermal compression tests, performed on a Gleeble-3800 thermal-mechanical simulator at temperatures between 950 ℃ and 1 150 ℃ and strain rates between 0.1 and 10 s −1 . The peak stress and peak strain as functions of processing parameters were obtained. The dependence of peak stress on strain rate and temperature obeys a hyperbolic sine equation with a Zener-Hollomon parameter. By regression analysis, in the temperature range of 950−1 150 ℃ and strain rate range of 0.1−10 s −1 , the mean activation energy and the stress exponent were determined to be 351 kJ/mol and 4.728, respectively. Meanwhile, models of flow stress and dynamic recrystallization (DRX) grain size were also established. The model predictions show good agreement with experimental results.

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Chong-xiang Yue

Research on the dynamic recrystallization behavior of GCr15 steel

Kinetic Analysis of the Austenite Grain Growth in GCr15 Steel

Mathematical models for predicting the austenite grain size in hot working of GCr15 steel

Multi-field coupled numerical simulation of microstructure evolution during the hot rolling process of GCr15 steel rod

Hot deformation behaviors and flow stress model of GCr15 bearing steel

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