@ARTICLE{Xu_Hao_The_2024, author={Xu, Hao and Gou, Rui-Bin and Yu, Min and Dan, Wen-Jiao and Wang, Nian}, volume={vol. 69}, number={No 1}, journal={Archives of Metallurgy and Materials}, pages={197-208}, howpublished={online}, year={2024}, publisher={Institute of Metallurgy and Materials Science of Polish Academy of Sciences}, publisher={Committee of Materials Engineering and Metallurgy of Polish Academy of Sciences}, abstract={In order to reveal the non-uniform distribution of grain size in thick direction for engineering heavy plate, microstructure of 40 mm-thick Q345 steel was observed and measured under different short-term high temperature environments formed by fire. Moreover, the influence of the short-term high temperature environment was revealed on the distribution of ferrite grain size in the Q345 steel. Under different fire service environments, there was a log-normal distribution relationship between the distribution parameter Nf (number of ferrite grains) and df (average grain diameter), as well as ρAf (area fraction density) and df, at different positions along the thickness direction. However, the statistical results are greatly affected by the length of the statistical interval. When df is about 4 to 6 times the length of the statistical interval, the statistical accuracy is higher. By using nonlinear fitting method, multiple non-uniform distribution empirical models including Nf-df empirical formulas and ρAf-df empirical formulas were established at different positions along thick direction under various fire environments. Furthermore, the interrelationships between fire temperature T and Nf , T and ρAf , fire duration t and Nf , t and ρAf were revealed, respectively.}, type={Article}, title={The Influence of Short-Term High Temperature Environment on the Non-Uniform Distribution of Ferrite Grain Size in 40 mm-thick Q345 Steel}, URL={http://www.journals.pan.pl/Content/130937/PDF/AMM-2024-1-35-Riu-Bin%20Gou.pdf}, doi={10.24425/amm.2024.147809}, keywords={short-term high temperature environment, Q345 thick plate, microstructure, distribution model}, }