铌
材料科学
微观结构
冶金
奥氏体
微合金钢
粒度
作者
Haiqing Wang,Minghao Shi,Lian Hou,Chaokun Yin,Man Di
标识
DOI:10.1134/s0031918x24600234
摘要
To study the effect of different initial microstructures on the austenite grains of Nb containing trace element alloy steels, three experimental steels with the same chemical composition and different initial microstructures were obtained through heat treatment. After furnace cooling, air cooling and water quenching, the microstructure of the hot rolled experimental steel is ferrite and a large amount of pearlite, ferrite and pearlite, martensite and bainite, respectively. The research results indicate that under the heating rate of 0.5°C/s, the austenite grain size in the furnace cooled microstructure is the lowest (115 ± 8 μm). The austenite grains in the water quenched microstructure have significantly grown (146 ± 12 μm). Based on the expansion curve and the Johnson–Mehl–Avrami–Kolmogorov equation, determine the kinetic parameters k and n of austenite transformation under non isothermal conditions. The kinetic parameter k increases with the increase of heating rate, while the value of n remains almost unchanged. Based on the Kissinger formula, the activation energy of austenite transformation was calculated. The activation energy of austenite transformation in furnace cooled microstructure is the highest (520.04 kJ/mol), while the activation energy of austenite transformation in water quenched microstructure is the lowest (454.28 kJ/mol). The initial microstructure plays an important role in austenite phase transformation.
科研通智能强力驱动
Strongly Powered by AbleSci AI