Abstract
Microstructural evolution of a dual phase steel sheet at different heating rates and temperatures was investigated by scanning electron microscopy (SEM). Texture, grain size distribution and grain boundary characteristic of ferrite phase in the dual phase steel were analysed by the electron backscattered diffraction (EBSD) technique. EBSD results show that the sample had obvious {111}//ND (normal direction) and {001} //ND texture at the heating rate of 50 and 250 K s−1 respectively, and that the grain size may be refined by rapid annealing. However, the effect of the heating rate on microstructure decreases as the heating temperature reaches 1173 K. It was found that grain size distribution and grain boundary characteristics of dual phase steel have been significantly affected by heating rate and temperature.
Acknowledgement
This work was supported by the National Twelfth Five-year Science and Technology Support Program of China (grant nos. 2011BAE13B01 and 2011BAE13B03).