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作 者:崔衡[1] 董志平[2] 时颜林 李实[2] 杜建新[1] 刘竑[2] 包燕平[1]
机构地区:[1]北京科技大学冶金工程研究院,北京100083 [2]宝山钢铁股份有限公司不锈钢事业部,上海200431
出 处:《北京科技大学学报》2009年第S1期67-71,共5页Journal of University of Science and Technology Beijing
基 金:"十一五"国家科技支撑计划资助项目(2006BAE03A06)
摘 要:在常压和真空条件下研究了温度与氮分压对316L不锈钢中氮溶解度的影响,钢中氮的溶解度随着温度的降低而升高,随着氮分压的增大而增大.建立了316L不锈钢氮溶解度热力学计算模型,不同吹氮条件下氮溶解度实测值与热力学模型计算值较吻合.在1773~1873K条件下,生产控氮型316L不锈钢,氮分压要控制在6~28kPa以上;生产中氮型316L不锈钢,氮分压要控制在22~101kPa以上.常压下吹氮10min,钢液含氮量即可超过0.10%.The influences of liquid steel temperature and nitrogen partial pressure on the nitrogen solubility in 316 L stainless steel under normal atmosphere and vacuum were studied. The nitrogen solubility increased with decreasing the liquid steel temperature or increasing the nitrogen partial pressure. A thermodynamic model was developed to calculate the nitrogen solubility in 316 L stainless steel,and the calculated results were in coincidence with the measurement results under different nitrogen blowing processes. At 1 773 to 1 873 K,the nitrogen partial pressure must be over 6-28 kPa to produce 316LN (N: 0.05%-0.10%,mass fraction,so as the follows),and must be over 22-101 kPa to produce 316 LN (N: 0.10%-0.40%). The nitrogen content was over 0.01% in the condition of nitrogen blowing for 10 min under normal atmosphere.
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