tate Key Laboratory of Advanced Metallurgy, University of Science and Technology Beijing, Beijing 100083, China 2. School of Metallurgical and Ecological Engineering, University of Science and Technology Beijing, Beijing 100083, China
e and Control of Nitrogen for X70 Pipeline Steel
ANG1,2,Yan-ping BAO1,2
tate Key Laboratory of Advanced Metallurgy, University of Science and Technology Beijing, Beijing 100083, China 2. School of Metallurgical and Ecological Engineering, University of Science and Technology Beijing, Beijing 100083, China
ժҪ effects of some key factors on nitrogen absorption during the smelting process of X70 pipeline steel were studied, and the source of nitrogen pick-up was analyzed to find the bottleneck for nitrogen control. A series of measures were put forward to decrease the nitrogen pick-up. The results indicated that an exponential relationship existed between the nitrogen absorption index and the free oxygen in molten steel. Nitrogen absorption index could decrease below 0��3 when free oxygen in molten steel was above 100��10-6 after tapping. For low sulfur killed steel, the nitrogen absorption ratio and sulfur content satisfied a linear relationship with a slope of -0��007. Low free-oxygen and sulfur were beneficial to the deep desulfurization during vacuum treatment. The contradiction of high desulfurization ratio and low nitrogen pick-up during LF process could be resolved by skimming oxidizing slag after tapping and making new high basicity top slag. After optimization, the average content of nitrogen in final product decreased from 46��10-6 to 35��10-6.
Abstract��effects of some key factors on nitrogen absorption during the smelting process of X70 pipeline steel were studied, and the source of nitrogen pick-up was analyzed to find the bottleneck for nitrogen control. A series of measures were put forward to decrease the nitrogen pick-up. The results indicated that an exponential relationship existed between the nitrogen absorption index and the free oxygen in molten steel. Nitrogen absorption index could decrease below 0��3 when free oxygen in molten steel was above 100��10-6 after tapping. For low sulfur killed steel, the nitrogen absorption ratio and sulfur content satisfied a linear relationship with a slope of -0��007. Low free-oxygen and sulfur were beneficial to the deep desulfurization during vacuum treatment. The contradiction of high desulfurization ratio and low nitrogen pick-up during LF process could be resolved by skimming oxidizing slag after tapping and making new high basicity top slag. After optimization, the average content of nitrogen in final product decreased from 46��10-6 to 35��10-6.
��������:National Natural Science Foundation of China;Fundamental Research Funds for the Central Universities;State Key Laboratory of Advanced Metallurgy Foundation in China
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E-mail: worldmind@163.com
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ANG,,Yan-ping BAO,. e and Control of Nitrogen for X70 Pipeline Steel[J]. �й������ڿ���, 2016, 23(7): 647-654.
ANG,,Yan-ping BAO,. e and Control of Nitrogen for X70 Pipeline Steel. Chinese Journal of Iron and Steel, 2016, 23(7): 647-654.