Bainite Transformation of Low-carbon and Boron-containing Steel under Continuous Cooling
Zhi-hong ZHANG1,2,3,4,Xiang-xin XUE1,2,3,4
1. Institute of Metallurgical Resources and Environmental Engineering, Northeastern University, Shenyang 110819,Liaoning, China 2. Liaoning Key Laboratory of Metallurgical Resources Circulation Science, Shenyang 110819,Liaoning, China 3. Liaoning Engineering Technology Research Center of Comprehensive Utilization of Boron Resources, Shenyang 110819, Liaoning, China 4. Liaoning University Key Laboratories of Ecological Utilization Technology of Boron Resources and Boron Materials, Shenyang 110819, Liaoning, China
Bainite Transformation of Low-carbon and Boron-containing Steel under Continuous Cooling
Zhi-hong ZHANG1,2,3,4,Xiang-xin XUE1,2,3,4
1. Institute of Metallurgical Resources and Environmental Engineering, Northeastern University, Shenyang 110819,Liaoning, China 2. Liaoning Key Laboratory of Metallurgical Resources Circulation Science, Shenyang 110819,Liaoning, China 3. Liaoning Engineering Technology Research Center of Comprehensive Utilization of Boron Resources, Shenyang 110819, Liaoning, China 4. Liaoning University Key Laboratories of Ecological Utilization Technology of Boron Resources and Boron Materials, Shenyang 110819, Liaoning, China
ժҪ The effects of deformation temperature and strain on bainite transformation of low carbon steel and boron-containing steel were investigated under continuous cooling conditions by means of dilatometric measurement and microstructure observation. The results show that with decreasing the deformation temperature from 1000 to 800 �� and increasing strains, bainite start temperature for boron-containing low carbon steel increases, whereas it decreases for low carbon steel under the same condition. The bainite microstructures are easily obtained for boron-containing steel deformed at different temperatures and different strains compared with plain low carbon steel. With increasing the continuous cooling rate, the bainite start temperature under deformed condition is about 20 �� higher than that under undeformed condition for boron-containing steel, but it changes slightly when the cooling rate is 20 ��/s or more.
Abstract��The effects of deformation temperature and strain on bainite transformation of low carbon steel and boron-containing steel were investigated under continuous cooling conditions by means of dilatometric measurement and microstructure observation. The results show that with decreasing the deformation temperature from 1000 to 800 �� and increasing strains, bainite start temperature for boron-containing low carbon steel increases, whereas it decreases for low carbon steel under the same condition. The bainite microstructures are easily obtained for boron-containing steel deformed at different temperatures and different strains compared with plain low carbon steel. With increasing the continuous cooling rate, the bainite start temperature under deformed condition is about 20 �� higher than that under undeformed condition for boron-containing steel, but it changes slightly when the cooling rate is 20 ��/s or more.
Zhi-hong ZHANG,,,,Xiang-xin XUE,,,. Bainite Transformation of Low-carbon and Boron-containing Steel under Continuous Cooling[J]. �й������ڿ���, 2014, 21(3): 359-363.
Zhi-hong ZHANG,,,,Xiang-xin XUE,,,. Bainite Transformation of Low-carbon and Boron-containing Steel under Continuous Cooling. Chinese Journal of Iron and Steel, 2014, 21(3): 359-363.
2014, Vol. 21 
